Radwin RW2058U Outdoor radio unit operating in 5.8 GHz bands User Manual STW

Radwin Ltd. Outdoor radio unit operating in 5.8 GHz bands STW

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Appendix A
Technical Specifications
Configuration
Architecture
IDU to ODU Interface
ODU: Outdoor Unit with Integrated Antenna or Connectorized for External Antenna
IDU: Indoor Unit for service interfaces or PoE device for
Ethernet only
Outdoor CAT-5e cable; Maximum cable length: 100 m
Radio
Capacity
Range
Up to 270Mbps at 40MHz channel bandwidth in the 5.3/5.4
IC and 5.8 GHz spectrum bands
Up to 120 km / 75 miles
Band
Regulations
5.725 – 5.850 GHz
FCC / IC
5.725 – 5.825 GHz
FCC(UNII)/IC
5.250 – 5.350 GHz (excluding FCC
40 MHz channel bandwidth
and 6dBi antenna assembly
gain)
Frequency Bands
5.250 – 5.350 GHz (including IC
40 MHz channel bandwidth
and 6dBi antenna assembly
gain)
5.470 – 5.725 GHz (excluding FCC
40 MHz channel bandwidth
and 6dBi antenna assembly
gain)
5.470 – 5.725 GHz (including IC
40 MHz channel bandwidth
and 6dBi antenna assembly
gain)
RADWIN 1000/2000 User Manual
4.940 – 4.990 GHz
FCC / IC
2.400 – 2.4835 GHz
FCC / IC
Version 2.5p-4
A-1
Radio
Channel Bandwidth
Max Tx Power
Channel Bandwidth
Radio Modulation
Appendix A
5, 10, and 20 MHz
40 MHz in the 5.3/5.4 IC and 5.8 GHz spectrum bands
Power
Antenna
Band
5.725 – 5.850 GHz
29.95 dBm
28 dBi Dish
5.725 – 5.850 GHz
29.95 dBm
24 dBi Integral Flat
5.725 – 5.850 GHz
29.95 dBm
23 dBi External Flat
5.250 – 5.350 GHz
1.9 dBm
28 dBi Dish
5.250 – 5.350 GHz
6.5 dBm
23.5 dBi Integral Flat
5.250 – 5.350 GHz
7.5 dBm
22.5 dBi External Flat
5.250 – 5.350 GHz IC
23.5dBm
6 dBi assembly
5.470 – 5.725 GHz
1.6 dBm
28 dBi Dish
5.470 – 5.725 GHz
6.3 dBm
23.5 dBi Integral Flat
5.470 – 5.725 GHz
7.3 dBm
22.5 dBi External Flat
5.470 – 5.725 GHz IC
23.7 dBm
6 dBi assembly
5.725 – 5.825 GHz
23.8 dBm
28 dBi Dish
5.725 – 5.825 GHz
26.4 dBm
22.5 dBi Integral Flat
5.725 – 5.825 GHz
26.4 dBm
23.5 dBi External Flat
5.725 – 5.825 GHz
29.4 dBm
6 dBi assembly
4.940 – 4.990 GHz
31 dBm
21 dBi Integral Flat
4.940 – 4.990 GHz
31 dBm
21 dBi External Flat
4.940 – 4.990 GHz
31 dBm
28 dBi Dish
2.400 – 2.4835 GHz
25.5 dBm*
20 dBi External Flat
2.400 – 2.4835 GHz
25.5 dBm*
17.5 dBi Integral Flat
2.400 – 2.4835 GHz
23.7 dBm
20 dBi External Flat
2.400 – 2.4835 GHz
23.7 dBm
17.5 dBi Integral Flat
5, 10, and 20 MHz, (10MHz not supported in the 5.8 GHz
band)
2x2 MIMO-OFDM (BPSK/QPSK/16QAM/64QAM)
Adaptive Modulation & Coding Supported
Automatic Channel Selection
Radio Regulation
Supported
FCC 47 CFR Part 15 Subpart C, E
Duplex Technology
IC (Canada) RSS-210 and RSS-111
TDD
Error Correction
FEC k = 1/2, 2/3, 3/4, 5/6
Rate – Single Antenna [Mbps] 6.5
13
19.5
26
39
52
58.5
65
Rate – Single Antenna in the
5.8 GHz spectrum band
[Mbps]
13.5
27
40.5
54
81
108
121.5
135
Rate – Dual Antenna [Mbps]
13
26
39
52
78
104
117
130
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Version 2.5p-4
A-2
Ethernet Interface
Appendix A
Rate –Dual Antenna in the 5.8 27
GHz spectrum band [Mbps]
BPSK
Modulation
1/2
FEC [k=]
54
81
QPSK
1/2
3/4
25
Max Tx Power [dBm]
108
Sensitivity (dBm) @BER <10e- -88
-86
11 (20MHz)
AES 128
Encryption
-83
162
216
16QAM
243
270
64QAM
1/2
3/4
2/3
24
21
19
-81
-80
-72
3/4
5/6
18
-70
-67
* Relevant for RADWIN 1000 RW-1020-0150 / RADWIN 2000 RW-20200150 models only
Ethernet Interface
Number of Ethernet ports
Up to 270Mbps in the 5.3/5.4 IC and 5.8 GHz spectrum
bands
IDU-C: 2; PoE Device: 1
Type
10/100BaseT with Auto-Negotiation (IEEE 802.3u)
Framing/Coding
IEEE 802.3
Line Impedance
100 Ω
VLAN Support
Transparent
Connector
RJ-45
Maximum Frame Size
2048 Bytes
Throughput
Bridge
Latency
Layer 2, self-learning of up to 2047 MAC addresses (IEEE
802.1Q), hub/Bridge selectable mode
3 msec (typical)
Management
Management Application
RADWIN Manager
Protocol
SNMP and Telnet
Mechanical
ODU with Integrated Antenna: 37.1/14.84(W) x 37.1/
14.84(H) x 9.00/3.6(D) cm/in; 3.5 kg / 7 lbs
Dimensions
ODU Connectorized: 18.0/7.2(W) x 27.0/10.8(H) x 5.5/
2.2(D) cm/in; 1.5 kg / 3.0 lbs
IDU: 43.6/17.2(W) x 4.5/1.7(H) x 21/8.3(D) cm; 1.5 kg / 3.3
lbs
Power
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A-3
Environmental
Appendix A
Power Feeding
Dual feeding, -20 to -60 VDC (AC/DC converter is available)
Power Consumption
< 35 W (IDU+ODU)
Environmental
Operating Temperatures
Humidity
ODU: -35°C to +60°C / -31°F to +140°F
IDU: 0°C to +50°C / 32°F to +122°F
ODU: Up to 100% non-condensing, IP67
IDU: 90% non-condensing
Safety
FCC/IC (cTUVus)
UL 60950-1, CAN/CSA 60950-1 C22.2
ETSI
EN/IEC 60950-1
EMC
CFR47 Class B, Part15, Subpart B
FCC
CAN/CSA-CEI/IEC
EN 300 386 (2005), EN 301 489-1 (2001), EN 301 489-4
(2002)
CISPR 22-02
AS/NZS
CISPR 22:2002
ETSI
Air Interface
RADWIN 1000/2000 is available in several different frequency band ranges
that comply with ETSI, FCC and IC regulations.
The RADWIN 1000 RW-1020-0150 / RADWIN 2000 RW-2020-0150 is available only in the 2.4GHz frequency band range that complies with FCC and
IC regulations
RADWIN 1000/2000 User Manual
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A-4
Appendix B
Wiring Specifications
ODU-IDU Cable
The ODU-IDU cable is shielded/outdoor class CAT-5e, 4 twisted-pair 24
AWG terminated with RJ-45 connectors on both ends. A cable gland on the
ODU side provides hermetic sealing.
The following table shows the connector pinout:
Table B-1: ODU-IDU Connector Pinout
Function
Color
IDU RJ-45
ODU
RJ-45
Ethernet (RxN)
White/Green
twisted
Ethernet (RxT)
Green
pair
Ethernet (TxT)
White/Orange
twisted
Ethernet (TxN)
Orange
pair
Power (+)
Blue
twisted
Power (+)
White/Blue
pair
Power ()
White/Brown
twisted
Power (−)
Brown
pair
User Port Connectors
LAN Port
The LAN 10/100BaseT interface terminates in an 8-pin RJ-45 connector,
wired in accordance to table B-2.
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LAN Port
Appendix B
Table B-2: Fast Ethernet Connector Pinout
Pin
Signal
Function
TD (+)
Transmit Data
(positive)
TD (–)
Transmit Data
(negative)
RD (+)
Receive Data
(positive)
RD (–)
Receive Data
(negative)
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B-2
IDU-C Alarm Connector
Appendix B
IDU-C Alarm Connector
The IDU-C Alarm interface is a 25 pin D type female connector. Its pinout is
listed in table B-3.
Table B-3: IDU-C Alarm Connector (Dry-Contact)
I/O
Description
Pin
Input 1
Positive
14
Input 1
Negative
15
Input 2
Positive
16
Input 2
Negative
17
Input 3
Positive
18
Input 3
Negative
19
Input 4
Positive
20
Input 4
Negative
21
Output 1
Normally Open
Output 1
Common
Output 1
Normally
Closed
Output 2
Normally Open
Output 2
Common
Output 2
Normally
Closed
Output 3
Normally Open
Output 3
Common
Output 3
Normally
Closed
Output 4
Normally Open
10
Output 4
Common
11
Output 4
Normally
Closed
12
The following diagram describes how to connect external input and output
alarms.
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Version 2.5p-4
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IDU-C Alarm Connector
Note
Appendix B
•
Use an external current limit resistor to limit the current at the output
relays to 1 Ampere. Such resistor is not required if the equipment
connected to the IDU supports current limiting to 1 Amp.
•
The voltage of the input alarm must be within the range of -10 to -50
VDC.
Figure B-1: Example for connecting the alarm connector
DC Power Terminal
Table B-4: Terminal Block 3-pin -48VDC
RADWIN 1000/2000 User Manual
Function
Pin
Right
Chassis
Center
–
Left
Version 2.5p-4
B-4
Appendix C
Pole and Wall Installation
ODU Mounting Kit Contents
Table C-1: Bill of Materials: ODU mounting kit
Item
Qty
Large Clamp (see figure C-1)
Small Clamp (see figure C-2)
Arm (see figure C-3)
Screw hex head M8x40
Screw hex head M8x70
Washer flat M8
Washer spring M8
M8 Nuts
Figure C-1: Large Clamp
RADWIN 1000/2000 User Manual
Figure C-2: Small Clamp
Version 2.5p-4
Figure C-3: Arm
C-1
Mounting RADWIN 1000/2000 on a pole
Appendix C
Mounting RADWIN 1000/2000 on a pole
Figure C-4: Mounting on a pole
RADWIN 1000/2000 User Manual
Version 2.5p-4
C-2
Mounting RADWIN 1000/2000 on a Wall
Appendix C
Mounting RADWIN 1000/2000 on a Wall
Figure C-5: Mounting on a Wall
Mounting an External Antenna
Optional external antennas can be mounted on a pole. The external mounting kit varies according to the specific antenna.
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Version 2.5p-4
C-3
Appendix D
Link Budget Calculator
Overview
The Link Budget Calculator is a utility for calculating the expected performance of the RADWIN 1000/2000 wireless link and the possible configurations for a specific link range.
The utility allows you to calculate the expected RSS of the link, and find the
type of services and their effective throughput as a function of the link
range and deployment conditions.
User Input
You are required to enter or choose the following parameters. Depending
on the product, some of the parameters have a default value that cannot be
changed.
•
Product (or Regulation and Band)
•
Channel Bandwidth (fixed to 20 MHz for RADWIN 1000/2000)
•
Tx Power (maximum Tx power per modulation is validated)
•
Antenna Type (cannot be changed for ODU with integrated antenna)
•
Antenna Gain per site (cannot be changed for integrated antenna)
•
Cable Loss per site (cannot be changed for integrated antenna)
•
Required Fade Margin
•
Rate (and Adaptive check box)
•
Service Type (Ethernet Only for RADWIN 1000/2000 version 2.1)
•
Required Range
Link Budget Calculator Internal Data
For each product (or Regulation and Band) the calculator stores the following data required for link budget calculations:
•
Maximum Transmit power (per modulation)
•
Receiver Sensitivity (per modulation) for Ethernet service and for
TDM services at various BER
•
Maximum linear input power (used to calculate minimum distance)
RADWIN 1000/2000 User Manual
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D-1
Calculations
Appendix D
•
Antenna gain and cable loss for ODU with integrated antenna
•
Available Channel Bandwidths
Calculations
EIRP
EIRP = TxPower + AntennaGain SiteA – CableLoss SiteA
Expected RSS and Fade Margin
ExpectedRSS = EIRP – PathLoss + AntennaGain SiteB – CableLoss SiteB
where:
Site A is the transmitting site
Site B is the receiving site
PathLoss is calculated according to the free space model,
PathLoss = 32.45 + 20 × log 10( frequency MHz ) + 20 × log 10( RequiredRange Km )
ExpectedFadeM arg in = Sensitivity – ExpectedRSS
where Sensitivity is dependent on air-rate.
Min and Max Range
MinRange is the shortest range for which
ExpectedRSS ≤ MaxInputPower per air-rate.
MaxRange (with Adaptive checked) is the largest range for which
ExpectedRSS ≥ Sensitivity , at the highest air-rate for which this relationship is true. In a link with adaptive rate this will be the actual behavior.
MaxRange (for a given air-rate) is the largest range for which
ExpectedRSS ≥ Sensitivity + RequiredFadeM arg in .
Service
The Ethernet throughput is calculated according to internal product algorithms.
Availability
The Service Availability calculation is based on the Vigants Barnett method
which predicts the downtime probability based on a climate factor (C factor).
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Version 2.5p-4
D-2
Antenna Height
Appendix D
Availability = 6 × 10
× 10
–7
–-----------------------------------------------------------ExpectedFadeM arg in
10
× Cfactor × frequency GHz × ( RequiredRangeKM )
Antenna Height
The recommended antenna height required for line of sight is calculated as
the sum the Fresnel zone height and the boresight height. See About the
Fresnel Zone below.
The Fresnel zone height is calculated as:
300
---------------------------------- × ExpectedRange
----------------------------------------frequency GHz
0.6 × ------------------------------------------------------------------------------------------ExpectedRange
----------------------------------------- + ExpectedRange
----------------------------------------2
The boresight clearance height is calculated as:
Maean
ExpectedRange
+ ----------------------------------------2
– R Maean
where R Mean = 6367.4425Km .
Running the Link Budget Calculator
The Link Budget Calculator is supplied on the RADWIN Manager CD. It may
be run stand-alone from the CD or from the RADWIN Manager application.
¾ To run the Link Budget Calculator from the CD:
1. Insert the RADWIN Manager CD into the drive on the managing computer. In the window which opens, click the Link Budget Calculator
option.
2. If the CD autorun application does not start by itself, then point your
browser to
Z:\RADWIN\Setup\DATA\Link Budget Calculator.htm
where Z should be replaced with your own CD drive name.
¾ To run the Link Budget Calculator from the RADWIN Manager:
• Choose Help | Link Budget Calculator from the main menu of the
RADWIN Manager as in the following figure:
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Version 2.5p-4
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Running the Link Budget Calculator
Appendix D
Figure D-1: Accessing the Link Budget Calculator
However invoked, your browser displays the following page:
RADWIN 1000/2000 User Manual
Version 2.5p-4
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Running the Link Budget Calculator
Appendix D
Figure D-2: Link Budget Screen
RADWIN 1000/2000 User Manual
Version 2.5p-4
D-5
Running the Link Budget Calculator
•
Appendix D
Microsoft Internet Explorer users may see a warning message like
this:
Click the yellow bar and follow the instructions to allow blocked
content.
Note
•
Mozilla FireFox and Google Chrome users may see a warning message like this:
You may ignore it and continue.
¾ To use the Link Budget Calculator for RADWIN 1000/2000:
1. Choose a product from the drop-down list (or choose a Regulation and
Band):
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Version 2.5p-4
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Running the Link Budget Calculator
Appendix D
Figure D-3: Product selector
2. Enter the radio details. Note that Rate is chosen from a drop-down list:
RADWIN 1000/2000 User Manual
Version 2.5p-4
D-7
Running the Link Budget Calculator
Appendix D
Figure D-4: Rate selector
The Rate shown, defines the air-interface rate in Mbps. The system
operates in TDD mode and has the overhead of the air-interface protoco.l Thus, the Ethernet actual throughput is provided by the Ethernet
Rate.
For a given air-rate, Ethernet throughput will decrease with increasing range
due to propagation delay.
Note
The Fade margin is the minimum required for LOS conditions. For
degraded link conditions, a larger Fade margin should be used.
The EIRP is given in dBm and Watts.
3. If the required range between the two link sites is known, you may enter
it directly. Alternatively, you may enter the latitude and longitude of each
site in the link, in which case the distance between them will be calculated and displayed.
RADWIN 1000/2000 User Manual
Version 2.5p-4
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Running the Link Budget Calculator
Appendix D
Figure D-5: Calculation of distance from site coordinates
RADWIN 1000/2000 User Manual
Version 2.5p-4
D-9
Running the Link Budget Calculator
Appendix D
4. Located to the right of the green Coordinates button is a dropdown list of
Climactic C Factor values.
Figure D-6: Climactic C Factors
For help about what these mean, click the ? button to the right of the list
in figure D-6.
RADWIN 1000/2000 User Manual
Version 2.5p-4
D-10
Running the Link Budget Calculator
Appendix D
Figure D-7: Climactic C Factor description
In figure D-8 we display a map of the world showing C Factor contours:
RADWIN 1000/2000 User Manual
Version 2.5p-4
D-11
Running the Link Budget Calculator
Appendix D
Figure D-8: World map showing C Factor contours
5. Click Calculate to obtain the required performance estimate.
Placing the cursor in any other calculated field will also update the
calculated results.
Note
The Expected Performance parameters are calculated and displayed:
•
Expected RSS - the expected RSS that the RADWIN Manager
shows when the RADWIN 1000/2000 ODUs are optimally aligned
•
Ethernet Rate - maximum throughput available for the chosen
parameter combination
•
Antenna height for LOS – the minimum antenna height required
for line-of-sight operation. It is the sum of the height required for
boresight clearance due to the earth’s curvature plus the height
required to clear the Fresnel zone
If the expected performance is not suitable for your application, try different
parameters and repeat the calculation.
RADWIN 1000/2000 User Manual
Version 2.5p-4
D-12
About the Fresnel Zone
Appendix D
About the Fresnel Zone
The Fresnel zone (pronounced "frA-nel", with a silent “s”) is an elliptically
shaped conical zone of electromagnetic energy that propagates from the
transmitting antenna to the receiving antenna. It is always widest in the
middle of the path between the two antennas.
Figure D-9: Fresnel zone
Fresnel loss is the path loss occurring from multi-path reflections from
reflective surfaces such as water, and intervening obstacles such as buildings or mountain peaks within the Fresnel zone.
Radio links should be designed to accommodate obstructions and atmospheric conditions, weather conditions, large bodies of water, and other
reflectors and absorbers of electromagnetic energy.
The Fresnel zone provides us with a way to calculate the amount of clearance that a wireless wave needs from an obstacle to ensure that the obstacle does not attenuate the signal.
There are infinitely many Fresnel zones located coaxially around the center
of the direct wave. The outer boundary of the first Fresnel zone is defined
as the combined path length of all paths, which are half wavelength (1/2 λ)
of the frequency transmitted longer than the direct path. If the total path
distance is one wavelength (1 λ) longer than the direct path, then the outer
boundary is said to be two Fresnel zones. Odd number Fresnel zones reinforce the direct wave path signal; even number Fresnel zones cancel the
direct wave path signal.
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Version 2.5p-4
D-13
About the Fresnel Zone
Appendix D
The amount of the Fresnel zone clearance is determined by the wavelength
of the signal, the path length, and the distance to the obstacle. For reliability, point-to-point links are designed to have at least 60% of the first Fresnel
zone clear to avoid significant attenuation.
The concept of the Fresnel zone is shown in figure D-9 above. The top of
the obstruction does not extend far into the Fresnel zone, leaving 60% of
the Fresnel zone clear; therefore, the signal is not significantly attenuated.
For more about Fresnel zone, see http://en.wikipedia.org/wiki/
Fresnel_zone.
RADWIN 1000/2000 User Manual
Version 2.5p-4
D-14
Appendix E
Lightning Protection and
Grounding Guidelines
Meticulous implementation of the guidelines in this appendix will provide
best protection against electric shock and lightning.
100% protection is neither implied nor possible.
Warning
This appendix is at best a guide. The actual degree of lightning protection
required depends on local conditions and regulations.
Note
The RADWIN 1000/2000™ Lightning protection system consists of the following components:
•
Grounding for the antenna coax cable
•
Grounding for each IDU and ODU
•
External Primary Surge Suppressor units and grounding for the outdoor cable
•
Internal ESD protection circuits over the Power/Telecom lines
Grounding for Antenna Cable
A Grounding Kit must be connected to the coax antenna cable and reliably
grounded as shown in Figure X. The grounding kit is an Andrew Type
223158-2 (www.andrew.com). See figure E-1 below.
RADWIN 1000/2000 User Manual
Version 2.5p-4
E-1
Grounding for Indoor/Outdoor Units
Appendix E
Figure E-1: Grounding antenna cables
Grounding for Indoor/Outdoor Units
ODU Grounding
RADWIN 1000/2000™ uses a Shielded CAT-5e cable to interconnect the
Outdoor (ODU) and Indoor (IDU) units.
However, this shielding does not provide a good Lightning Discharge path,
since it can not tolerate the high Lightning Current surges.
To provide an alternate Lightning Discharge path, the ODU and antenna
grounding posts should be connected to ground point by a 10 AWG short
copper wire.
The device should be permanently connected to ground.
IDU Grounding
The IDUs grounding post should be connected to the internal ground point,
using a grounding wire of at least 10 AWG. The grounding wire should be
connected to a grounding rod or the building grounding system.
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External Lightning Surge Suppressors and Grounding
Appendix E
The device should be permanently connected to ground.
External Lightning Surge Suppressors and Grounding
A Grounding Kit and Surge Arrestor Unit must be located near the ODU and
properly grounded as illustrated in figure E-2 and figure E-3 below:
Figure E-2: Grounding a typical pole installation
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E-3
External Lightning Surge Suppressors and Grounding
Appendix E
Figure E-3: Grounding a typical wall installation
The next figure shows a close-up of the rear of grounded ODU:
Figure E-4: ODU Surge Suppressor and grounding
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E-4
External Lightning Surge Suppressors and Grounding
Appendix E
The Transtector protection circuits shown in figure E-5 below, utilize silicon
avalanche diode technology. The unit consists of an outdoor rated NEMA 3R
type enclosure with easy mounting flanges, ground stud attachment and
easy wiring.
The ALPU-POE features RJ-45 protection circuits for the ODU-IDU data pairs
(pins 1,2 & 3,6) and DC power (pins 4,5 & 6,7 with the pairs bonded).
The unit is designed to be wall mounted. An optional set of bracket is available to allow a wide range of pole mount applications. A dedicated ground
stud is provided inside the unit that must be bonded to the nearest grounding system (or Master Ground bar) for proper surge protection.
The system wiring is installed with RJ-45 type connectors that can feed
directly into the chassis without having to cut, splice or route through awkward strain relief holes.
Figure E-5: Transtector’s Surge Suppressor
¾ To mount the lightning protection devices:
1. Mount the device as close to the ODU as possible. Mount the unit so that
the cable connectors are at the bottom (to prevent water from penetrating), with the strain reliefs facing the ground.
2. Remove the cover by unscrewing the front of the unit.
3. Mount the unit to an outside surface using the two mounting holes.
4. Connect the ODU-IDU cable using the RJ-45 jack.
5. Connect one cable between the ODU and the suppressor using an RJ-45
jack.
6. Connect the suppressor’s ground stud to a grounding point. Use the
appropriate wire gauge and type, keeping the wire as short as possible,
less than 1m (3’), between the stud and the site grounding point.
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E-5
External Lightning Surge Suppressors and Grounding
Appendix E
7. Replace the cover.
Note
There may also be regulatory requirements to cross bond the ODU-IDU CAT5e cable at regular intervals up the mast. This may be as frequent as every
10 meters (33 feet).
A second Surge Arrestor Unit should be mounted at the building entry point
and must be grounded, as shown in figure E-3 above.
¾ To mount the lightning protection at the building entry point:
1. Mount the device outside the building, located as near as possible to the
entrance of the CAT-5e ODU-IDU cable. Mount the unit so that the cable
connectors are at the bottom (to prevent water from penetrating), with
the strain reliefs facing the ground.
2. Remove the cover by unscrewing the front of the unit.
3. Mount the unit to an outside surface using the two mounting holes.
4. Connect the ODU-IDU cable using the RJ-45 jack.
5. Connect one cable between the IDU and the suppressor using an RJ-45
jack.
6. Connect the suppressor’s ground stud to a grounding point. Use the
appropriate wire gauge and type, keeping the wire as short as possible,
less than 1m (3’), between the stud and the site grounding point.
7. Replace the cover
RADWIN 1000/2000 User Manual
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E-6
Internal ESD Protection circuits
Appendix E
Figure E-6: Surge Suppressor and grounding at building entry point
Internal ESD Protection circuits
RADWIN 1000/2000™ is designed to meet the ETSI/FCC/Aus/NZ/CSA EMC
and Safety requirements. To fulfill these requirements, the system's Telecom lines at the ODU/IDU are Transformer-isolated and include internal ESD
(Electro-Static-Discharge) Protection circuits.
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Version 2.5p-4
E-7
Appendix F
MIB Reference
Introduction
About the MIB
The RADWIN MIB is a set of APIs that enables external applications to control RADWIN equipment.
The MIB is divided into public and a private API groups:
•
Public: RFC-1213 (MIB II) variables, RFC-1214 (MIB II) System and
Interfaces sections
•
Private: Controlled by RADWIN and supplements the public group.
This appendix describes the public and private MIB used by RADWIN.
Terminology
The following terms are used in this appendix.
Term
Meaning
MIB
Management Information Base
API
Application Programming Interface
SNMP
Simple Network Management Protocol
In addition, the MIB uses internally, the older notions of Local site and
Remote site where this manual would use site A and site B.
To avoid burdening the reader, this appendix will follow the MIB usage.
Interface API
Control Method
The RADWIN Manager application provides all the means to configure and
monitor a RADWIN 1000/2000 link, communicating with the SNMP agent in
each ODU. Each SNMP agent contains data on each of the IDUs and ODUs
RADWIN 1000/2000 User Manual
Version 2.5p-4
F-1
Community String
Appendix F
in the link. Both agents communicate with each other over the air using a
proprietary protocol.
Each ODU has a single MAC address and a single IP address.
Note
To control and configure the device using the MIB, you should adhere to the
following rules:
•
The connection for control and configuration is to the local site, over
any SNMP/UDP/IP network.
•
All Parameters should be consistent between both of the ODUs. Note
that inconsistency of air parameters can break the air connection. To
correct air parameters inconsistency you must reconfigure each of
the ODUs.
•
Common practice is to configure the remote site first and then to
configure the local site.
•
For some of the configuration parameters additional action must be
taken before the new value is loaded. Please refer to the operation
in the parameters description.
•
Some of the MIB parameters values are product dependent. It is
strongly recommend using the RADWIN Manager Application for
changing these values. Setting wrong values may cause indeterminate results.
Community String
To control a link, all SNMP requests should go to the local site IP address.
The RADWIN Manager uses the Read Community strings public for the
local ODU and public-remote for the remote ODU. It uses Write Community strings netman for the local ODU and netman-remote for the
remote ODU. These are the factory defaults.
Private MIB Structure
The sections in the private RADWIN MIB and its location in the MIB tree are
shown in figure F-1 below:
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Version 2.5p-4
F-2
Private MIB Structure
Appendix F
Figure F-1: Top Level Sections of the private MIB
The products MIB section contains the definition of the Object IDs for the
two form factors of the ODU, Integrated Antenna and Connectorized
(referred in the MIB as external antenna):
The ODU MIB contains the sections: Admin, Service, Ethernet, Bridge, Air,
PerfMon and Agent.
The IDU MIB contains the sections: Admin, Service, Ethernet, Bridge and
TDM.
The general MIB include a single generic parameter that is used by all traps
as a trap description parameter.
RADWIN 1000/2000 User Manual
Version 2.5p-4
F-3
MIB Parameters
Appendix F
MIB Parameters
The following section describes all of the MIB parameters. The MIB parameters follow the following naming convention:

...

For each of the configuration and control parameters (parameters with
read-write access), the “Description” column describes when the new value
is effective. It is recommended that you perform the appropriate action to
make the values affective immediately after any change. Where a change is
required on both sides of the link, it is recommended that you change both
sides of the link first and then perform the action.
Supported Variables from the RFC 1213 MIB
Table F-1: Supported RFC 1213 Variables (Sheet 1 of 2)
OID
Type
ifIndex
.1.3.6.1.2.1.2.2.1.1.xa
Integer
RO
A unique value for each interface.Its value ranges
between 1 and the value of ifNumber.The value for
each interface must remain constant at least from
one re-initialization of the entity's network
management system to the next re-initialization.
ifDescr
.1.3.6.1.2.1.2.2.1.2
DisplayString
RO
A textual string containing information about the
interface.This string should include the name of
the manufacturer, the product name and the
version of the hardware interface.
ifType
.1.3.6.1.2.1.2.2.1.3
Integer
RO
The type of interface, distinguished according to
the physical/link protocol(s) immediately `below'
the network layer in the protocol stack.
ifSpeed
.1.3.6.1.2.1.2.2.1.5
Gauge
RO
An estimate of the interface's current bandwidth in
bits per second.For interfaces which do not vary in
bandwidth or for those where no accurate
estimation can be made, this object should ontain
the nominal bandwidth.
ifPhysAddress
.1.3.6.1.2.1.2.2.1.6
Phys-Address
RO
The interface's address at the protocol layer
immediately `below' the network layer in the
protocol stack. For interfaces which do not have
such an address (e.g., a serial line), this object
should contain an octet string of zero length.
ifAdminStatus
.1.3.6.1.2.1.2.2.1.7
Integer
RW The desired state of the interface. The testing(3)
state indicates that no operational packets can be
passed.
ifOperStatus
.1.3.6.1.2.1.2.2.1.8
Integer
RO
The current operational state of the interface. The
testing(3) state indicates that no operational
packets can be passed.
ifInOctets
.1.3.6.1.2.1.2.2.1.10.x
Counter
RO
The total number of octets received on the
interface, including framing characters.
ifInUcastPkts
.1.3.6.1.2.1.2.2.1.11.x
Counter
RO
The number of subnetwork-unicast packets
delivered to a higher-layer protocol.
ifInNUcastPkts
.1.3.6.1.2.1.2.2.1.12.x
Counter
RO
The number of non-unicast (i.e., subnetworkbroadcast or subnetwork-multicast) packets
delivered to a higher-layer protocol.
RADWIN 1000/2000 User Manual
Version 2.5p-4
Access
Name
Description
F-4
MIB Parameters
Appendix F
Table F-1: Supported RFC 1213 Variables (Sheet 2 of 2)
OID
Type
ifInErrors
.1.3.6.1.2.1.2.2.1.14.x
Counter
RO
The number of inbound packets that contained
errors preventing them from being deliverable to a
higher-layer protocol.
ifOutOctets
.1.3.6.1.2.1.2.2.1.16.x
Counter
RO
The total number of octets transmitted out of the
interface, including framing characters.
ifOutUcastPkts
.1.3.6.1.2.1.2.2.1.17.x
Counter
RO
The total number of packets that higher-level
protocols requested be transmitted to a
subnetwork-unicast address, including those that
were discarded or not sent.
ifOutNUcastPkts
.1.3.6.1.2.1.2.2.1.18.x
Counter
RO
The total number of packets that higher-level
protocols requested be transmitted to a nonunicast (i.e., a subnetwork-broadcast or
subnetwork-multicast) address, including those
that were discarded or not sent.
Access
Name
Description
a. x is the interface ID
MIB Parameters
Table F-2: Private MIB Parameters (Sheet 1 of 14)
OID
Type
winlink1000OduAdmProductType
1.3.6.1.4.1.4458.1000.1.1.1
DisplayString
RO
ODU configuration description.
winlink1000OduAdmHwRev
1.3.6.1.4.1.4458.1000.1.1.2
DisplayString
RO
ODU Hardware Version.
winlink1000OduAdmSwRev
1.3.6.1.4.1.4458.1000.1.1.3
DisplayString
RO
ODU Software Version.
Access
Name
Description
winlink1000OduAdmLinkName
1.3.6.1.4.1.4458.1000.1.1.4
DisplayString
RW Link Name. A change is effective immediately.
winlink1000OduAdmResetCmd
1.3.6.1.4.1.4458.1000.1.1.5
Integer
RW Reset Command. A set command with a value of 3
will cause a device reset. The read value is always
0.
winlink1000OduAdmAddres
1.3.6.1.4.1.4458.1000.1.1.6
IpAddress
RW ODU IP address. A change is effective after reset.
The parameter is kept for backward compatibility.
Using the alternative parameter:
winlink1000OduAdmIpParamsCnfg is
recommended.
winlink1000OduAdmMask
1.3.6.1.4.1.4458.1000.1.1.7
IpAddress
RW ODU Subnet Mask. A change is effective after
reset. The parameter is kept for backward
compatibility. Using the alternative parameter:
winlink1000OduAdmIpParamsCnfg is
recommended.
winlink1000OduAdmGateway
1.3.6.1.4.1.4458.1000.1.1.8
IpAddress
RW ODU default gateway. A change is effective after
reset. The parameter is kept for backward
compatibility. Using the alternative parameter:
winlink1000OduAdmIpParamsCnfg is
recommended.
winlink1000OduAdmBroadcast
1.3.6.1.4.1.4458.1000.1.1.10
Integer
RW This parameter is reserved for the Manager
application provided with the product.
winlink1000OduAdmHostsTable
N/A Trap destinations table. Each trap destination is
defined by an IP address and a UDP port. Up to 10
addresses can be configured.
winlink1000OduAdmHostsEntry
N/A Trap destinations table entry.
winlink1000OduAdmHostsIndex
winlink1000OduAdmHostsIp
RO
1.3.6.1.4.1.4458.1000.1.1.12.1.2
RADWIN 1000/2000 User Manual
IpAddress
Version 2.5p-4
Trap destinations table index.
RW Trap destination IP address. A change is effective
immediately.
F-5
MIB Parameters
Appendix F
Table F-2: Private MIB Parameters (Sheet 2 of 14)
OID
Type
winlink1000OduAdmHostsPort
1.3.6.1.4.1.4458.1000.1.1.12.1.3
Integer
RW UDP port of the trap destination. A change is
effective immediately.
winlink1000OduBuzzerAdminState
1.3.6.1.4.1.4458.1000.1.1.13
Integer
RW This parameter controls the activation of the
buzzer while the unit is in install mode. A change is
effective immediately. The valid values are:
disabled (0) enabled (1).
winlink1000OduProductId
1.3.6.1.4.1.4458.1000.1.1.14
DisplayString
RO
winlink1000OduReadCommunity
1.3.6.1.4.1.4458.1000.1.1.15
DisplayString
RW Read Community String. This parameter always
returns ***** when retrieving its value. It is used by
the Manager application to change the Read
Community String. The SNMP agent accepts only
encrypted values.
winlink1000OduReadWriteCommunity
1.3.6.1.4.1.4458.1000.1.1.16
DisplayString
RW Read/Write Community String. This parameter
always returns ***** when retrieving its value. It is
used by the Manager application to change the
Read/Write Community String. The SNMP agent
accepts only encrypted values.
winlink1000OduTrapCommunity
1.3.6.1.4.1.4458.1000.1.1.17
DisplayString
RW Trap Community String. This parameter is used by
the Manager application to change the Trap
Community String. The SNMP agent accepts only
encrypted values.
winlink1000OduAdmSnmpAgentVersion
1.3.6.1.4.1.4458.1000.1.1.18
Integer
RO
Major version of the SNMP agent.
winlink1000OduAdmRemoteSiteName
1.3.6.1.4.1.4458.1000.1.1.19
DisplayString
RO
Remote site name. Returns the same value as
sysLocation parameter of the remote site.
winlink1000OduAdmSnmpAgentMinorVe
rsion
1.3.6.1.4.1.4458.1000.1.1.20
Integer
RO
Minor version of the SNMP agent.
winlink1000OduAdmLinkPassword
1.3.6.1.4.1.4458.1000.1.1.21
DisplayString
RW Link Password. This parameter always returns
***** when retrieving its value. It is used by the
Manager application to change the Link Password.
The SNMP agent accepts only encrypted values.
winlink1000OduAdmSiteLinkPassword
1.3.6.1.4.1.4458.1000.1.1.22
DisplayString
RW Site Link Password. This parameter always returns
***** when retrieving its value. It is used by the
Manager application to change the Link Password
of the site. The SNMP agent accepts only
encrypted values.
winlink1000OduAdmDefaultPassword
1.3.6.1.4.1.4458.1000.1.1.23
Integer
RO
This parameter indicates if the current Link
Password is the default password.
winlink1000OduAdmConnectionType
1.3.6.1.4.1.4458.1000.1.1.24
Integer
RO
This parameter indicates if the Manager
application is connected to the local ODU or to the
remote ODU over the air. A value of 'unknown'
indicates community string mismatch.
winlink1000OduAdmBackToFactorySetti
ngsCmd
1.3.6.1.4.1.4458.1000.1.1.25
Integer
RW Back to factory settings Command. A change is
effective after reset. The read value is always 0.
winlink1000OduAdmIpParamsCnfg
1.3.6.1.4.1.4458.1000.1.1.26
DisplayString
RW ODU IP address Configuration. The format is:
|||
winlink1000OduAdmVlanID
1.3.6.1.4.1.4458.1000.1.1.27
Integer
RW VLAN ID. Valid values are 1 to 4094. Initial value is
0 meaning VLAN unaware.
winlink1000OduAdmVlanPriority
1.3.6.1.4.1.4458.1000.1.1.28
Integer
RW VLAN Priority. 0 is lowest priority 7 is highest
priority.
winlink1000OduAdmSN
1.3.6.1.4.1.4458.1000.1.1.29
DisplayString
RO
winlink1000OduSrvMode
1.3.6.1.4.1.4458.1000.1.2.1
Integer
RW System mode. The only value that can be set is
installMode; normalMode reserved to the Manager
application provided with the product. A change is
effective after link re-synchronization.
RADWIN 1000/2000 User Manual
Version 2.5p-4
Access
Name
Description
This parameter is reserved for the Manager
application provided with the product.
IDU Serial Number
F-6
MIB Parameters
Appendix F
Table F-2: Private MIB Parameters (Sheet 3 of 14)
OID
Type
winlink1000OduSrvBridging
1.3.6.1.4.1.4458.1000.1.2.3
Integer
RO
Bridging Mode. Valid values are: disabled (0)
enabled (1).
winlink1000OduEthernetRemainingRate
1.3.6.1.4.1.4458.1000.1.3.1
Integer
RO
Current Ethernet bandwidth in bps.
winlink1000OduEthernetIfTable
Access
Name
Description
N/A ODU Ethernet Interface table.
winlink1000OduEthernetIfEntry
N/A ODU Ethernet Interface table entry.
winlink1000OduEthernetIfIndex
1.3.6.1.4.1.4458.1000.1.3.2.1.1
Integer
RO
ODU Ethernet Interface Index.
winlink1000OduEthernetIfAddress
1.3.6.1.4.1.4458.1000.1.3.2.1.5
DisplayString
RO
ODU MAC address.
winlink1000OduEthernetIfAdminStatus
1.3.6.1.4.1.4458.1000.1.3.2.1.6
Integer
RW Required state of the interface.
winlink1000OduEthernetIfOperStatus
1.3.6.1.4.1.4458.1000.1.3.2.1.7
Integer
RO
winlink1000OduEthernetIfFailAction
1.3.6.1.4.1.4458.1000.1.3.2.1.8
Integer
RW Failure action of the interface.
winlink1000OduEthernetNumOfPorts
1.3.6.1.4.1.4458.1000.1.3.3
Integer
RO
Current operational state of the interface.
Number of ODU network interfaces.
winlink1000OduBridgeBasePortTable
N/A ODU Bridge Ports table.
winlink1000OduBridgeBasePortEntry
N/A ODU Bridge Ports table entry.
winlink1000OduBridgeBasePortIndex
RO
ODU Bridge Port Number.
winlink1000OduBridgeBaseIfIndex
RO
IfIndex corresponding to ODU Bridge port.
winlink1000OduBridgeTpMode
1.3.6.1.4.1.4458.1000.1.4.4.101
Integer
RW ODU bridge mode. A change is effective after
reset. Valid values: hubMode (0) bridgeMode (1).
winlink1000OduBridgeTpPortTable
N/A ODU Transparent Bridge Ports table.
winlink1000OduBridgeTpPortEntry
N/A ODU Transparent Bridge Ports table entry.
winlink1000OduBridgeTpPortIndex
RO
ODU Transparent Bridge Port Number.
winlink1000OduBridgeTpPortInFrames
1.3.6.1.4.1.4458.1000.1.4.4.3.1.3
Counter
RO
Number of frames received by this port.
winlink1000OduBridgeTpPortOutFrames
1.3.6.1.4.1.4458.1000.1.4.4.3.1.4
Counter
RO
Number of frames transmitted by this port.
winlink1000OduBridgeTpPortInBytes
1.3.6.1.4.1.4458.1000.1.4.4.3.1.10 Counter
RO
Number of bytes received by this port.
winlink1000OduBridgeTpPortOutBytes
1.3.6.1.4.1.4458.1000.1.4.4.3.1.10 Counter
RO
Number of bytes transmitted by this port.
winlink1000OduAirFreq
1.3.6.1.4.1.4458.1000.1.5.1
Integer
RW Installation Center Frequency. Valid values are
product dependent. A change is effective after link
re-synchronization.
winlink1000OduAirDesiredRate
1.3.6.1.4.1.4458.1000.1.5.2
Integer
RW Deprecated parameter actual behavior is readonly. Required Air Rate. For Channel Bandwidth of
20 10 5 MHz divide the value by 1 2 4 respectively.
winlink1000OduAirSSID
1.3.6.1.4.1.4458.1000.1.5.3
DisplayString
RW Reserved for the Manager application provided
with the product.
winlink1000OduAirTxPower
1.3.6.1.4.1.4458.1000.1.5.4
Integer
RW Required Transmit power in dBm . This is a
nominal value while the actual transmit power
includes additional attenuation. The min and max
values are product specific. A change is effective
immediately.
winlink1000OduAirSesState
1.3.6.1.4.1.4458.1000.1.5.5
Integer
RO
Current Link State. The value is active (3) during
normal operation.
winlink1000OduAirMstrSlv
1.3.6.1.4.1.4458.1000.1.5.6
Integer
RO
This parameter indicates if the device was
automatically selected into the radio link master or
slave. The value is undefined if there is no link.
winlink1000OduAirResync
1.3.6.1.4.1.4458.1000.1.5.8
Integer
RW Setting this parameter to 1 will cause the link to
restart the synchronization process.
winlink1000OduAirRxPower
1.3.6.1.4.1.4458.1000.1.5.9.1
Integer
RO
Received Signal Strength in dBm.
winlink1000OduAirTotalFrames
1.3.6.1.4.1.4458.1000.1.5.9.2
Counter
RO
Total Number of received radio frames.
winlink1000OduAirBadFrames
1.3.6.1.4.1.4458.1000.1.5.9.3
Counter
RO
Total number of received radio frames with CRC
error.
winlink1000OduAirCurrentRate
1.3.6.1.4.1.4458.1000.1.5.9.4
Integer
RO
Deprecated parameter. Actual rate of the air
interface in Mbps. For Channel Bandwidth of 20 10
5 MHz divide the value by 1 2 4 respectively.
RADWIN 1000/2000 User Manual
Version 2.5p-4
F-7
MIB Parameters
Appendix F
Table F-2: Private MIB Parameters (Sheet 4 of 14)
OID
Type
winlink1000OduAirCurrentRateIdx
1.3.6.1.4.1.4458.1000.1.5.9.5
Integer
RO
winlink1000OduAirTxPower36
1.3.6.1.4.1.4458.1000.1.5.10
Integer
RW Deprecated parameter. Actual behavior is readonly.
winlink1000OduAirTxPower48
1.3.6.1.4.1.4458.1000.1.5.11
Integer
RW Deprecated parameter. Actual behavior is readonly.
winlink1000OduAirCurrentTxPower
1.3.6.1.4.1.4458.1000.1.5.12
Integer
RO
Access
Name
Description
Index of current air rate.
Current Transmit Power in dBm. This is a nominal
value while the actual transmit power includes
additional attenuation.
winlink1000OduAirMinFrequency
1.3.6.1.4.1.4458.1000.1.5.13
Integer
RO
Minimum center frequency in MHz.
winlink1000OduAirMaxFrequency
1.3.6.1.4.1.4458.1000.1.5.14
Integer
RO
Maximum center frequency in MHz.
winlink1000OduAirFreqResolution
1.3.6.1.4.1.4458.1000.1.5.15
Integer
RO
Center Frequency resolution. Measured in MHz if
value < 100 otherwise in KHz.
winlink1000OduAirCurrentFreq
1.3.6.1.4.1.4458.1000.1.5.16
Integer
RO
Current Center Frequency. Measured in MHz if
center frequency resolution value < 100 otherwise
in KHz.
winlink1000OduAirNumberOfChannels
1.3.6.1.4.1.4458.1000.1.5.17
Integer
RO
Number of channels that can be used.
winlink1000OduAirChannelsTable
N/A Table of channels used by automatic channels
selection (ACS).
winlink1000OduAirChannelsEntry
N/A ACS channels table entry.
winlink1000OduAirChannelsIndex
1.3.6.1.4.1.4458.1000.1.5.18.1.1
Integer
RO
Channel Index.
winlink1000OduAirChannelsFrequency
1.3.6.1.4.1.4458.1000.1.5.18.1.2
Integer
RO
Channel frequency in MHz.
winlink1000OduAirChannelsOperState
1.3.6.1.4.1.4458.1000.1.5.18.1.3
Integer
RW Channel state. Can be set by the user. Automatic
Channel Selection uses channels that are
AirChannelsOperState enabled and
AirChannelsAvail enabled. A change is effective
after link re-synchronization. Valid values: disabled
(0) enabled (1).
winlink1000OduAirChannelsAvail
1.3.6.1.4.1.4458.1000.1.5.18.1.4
Integer
RO
Channel state. Product specific and cannot be
changed by the user. Automatic Channel Selection
uses channels that are AirChannelsOperState
enabled and AirChannelsAvail enabled. Valid
values: disabled (0) enabled (1).
winlink1000OduAirDfsState
1.3.6.1.4.1.4458.1000.1.5.19
Integer
RO
Radar detection state. Valid values: disabled (0)
enabled (1).
winlink1000OduAirAutoChannelSelection 1.3.6.1.4.1.4458.1000.1.5.20
State
Integer
RO
Deprecated parameter. Indicating Automatic
Channel Selection availability at current channel
bandwidth. Valid values: disabled (0) enabled (1).
winlink1000OduAirEnableTxPower
1.3.6.1.4.1.4458.1000.1.5.21
Integer
RO
Indicating Transmit power configuration enabled or
disabled.
winlink1000OduAirMinTxPower
1.3.6.1.4.1.4458.1000.1.5.22
Integer
RO
Minimum Transmit power in dBm.
winlink1000OduAirMaxTxPowerTable
N/A Table of Maximum transmit power per air rate in
dBm.
winlink1000OduAirMaxTxPowerEntry
N/A Maximum Transmit power table entry.
winlink1000OduAirMaxTxPowerIndex
1.3.6.1.4.1.4458.1000.1.5.23.1.1
Integer
RO
Air interface rate index.
winlink1000OduAirMaxTxPower
1.3.6.1.4.1.4458.1000.1.5.23.1.2
Integer
RO
Maximum Transmit power in dBm.
winlink1000OduAirChannelBandwidth
1.3.6.1.4.1.4458.1000.1.5.24
Integer
RW Channel bandwidth in KHz. A change is effective
after reset.
winlink1000OduAirChannelBWTable
N/A Channel Bandwidths table.
winlink1000OduAirChannelBWEntry
N/A Channel Bandwidth table entry.
winlink1000OduAirChannelBWIndex
1.3.6.1.4.1.4458.1000.1.5.25.1.1
Integer
RO
Channel Bandwidth index.
winlink1000OduAirChannelBWAvail
1.3.6.1.4.1.4458.1000.1.5.25.1.2
Integer
RO
Channel Bandwidth availability product specific.
Options are: Not supported supported with manual
channel selection supported with Automatic
Channel Selection.
RADWIN 1000/2000 User Manual
Version 2.5p-4
F-8
MIB Parameters
Appendix F
Table F-2: Private MIB Parameters (Sheet 5 of 14)
OID
Type
winlink1000OduAirRFD
1.3.6.1.4.1.4458.1000.1.5.26
Integer
Access
Name
RO
Description
Current radio frame duration in microseconds.
winlink1000OduAirRatesTable
N/A Air Rate indexes table for current channel
bandwidth.
winlink1000OduAirRatesEntry
N/A Air Rate indexes table entry.
winlink1000OduAirRatesIndex
1.3.6.1.4.1.4458.1000.1.5.27.1.1
Integer
RO
Air Rate index.
winlink1000OduAirRatesAvail
1.3.6.1.4.1.4458.1000.1.5.27.1.2
Integer
RO
Air Rate availability depending on air interface
conditions.
winlink1000OduAirDesiredRateIdx
1.3.6.1.4.1.4458.1000.1.5.28
Integer
RW Required Air Rate index. 0 reserved for Adaptive
Rate. A change is effective immediately after Set
operation to the master side while the link is up.
winlink1000OduAirLinkDistance
1.3.6.1.4.1.4458.1000.1.5.29
Integer
RO
Link distance in meters. A value of -1 indicates an
illegal value and is also used when a link is not
established.
winlink1000OduAirLinkWorkingMode
1.3.6.1.4.1.4458.1000.1.5.30
Integer
RO
Link working mode as a result of comparing
versions of both sides of the link. Possible modes
are: Unknown - no link Normal - versions on both
sides are identical with full compatibility with
restricted compatibility or versions on both sides
are different with software upgrade or versions
incompatibility.
winlink1000OduAirMajorLinkIfVersion
1.3.6.1.4.1.4458.1000.1.5.31
Integer
RO
Major link interface version
Minor link interface version
winlink1000OduAirMinorLinkIfVersion
1.3.6.1.4.1.4458.1000.1.5.32
Integer
RO
winlink1000OduAirHssDesiredOpState
1.3.6.1.4.1.4458.1000.1.5.40.1
Integer
RW Required Hub Site Synchronization operating
state.
winlink1000OduAirHssCurrentOpState
1.3.6.1.4.1.4458.1000.1.5.40.2
Integer
RO
Current Hub Site Synchronization operating state.
winlink1000OduAirHssSyncStatus
1.3.6.1.4.1.4458.1000.1.5.40.3
Integer
RO
Hub Site Synchronization sync status.
winlink1000OduAirHssExtPulseStatus
1.3.6.1.4.1.4458.1000.1.5.40.4
Integer
RO
Hub Site Synchronization external pulse detection
status.
winlink1000OduAirHssExtPulseType
1.3.6.1.4.1.4458.1000.1.5.40.5
Integer
RO
Hub Site Synchronization external pulse type.
winlink1000OduAirHssDesiredExtPulseT
ype
1.3.6.1.4.1.4458.1000.1.5.40.6
Integer
RW Hub Site Synchronization required external pulse
type. Valid values for read write: {typeA(2)
typeB(3) typeC(4) typeD(5)}. Valid value for read
only: {notApplicable(1)}.
winlink1000OduAirHssRfpTable
N/A ODU Radio Frame Patterns (RFP) Table.
winlink1000OduAirHssRfpEntry
N/A ODU RFP Table entry.
winlink1000OduAirHssRfpIndex
1.3.6.1.4.1.4458.1000.1.5.40.7.1.1 Integer
RO
ODU RFP Table index. The index represent the
Radio Frame Pattern: typeA(2) typeB(3) typeC(4)
typeD(5).
winlink1000OduAirHssRfpEthChannelB
W5MHz
1.3.6.1.4.1.4458.1000.1.5.40.7.1.2 Integer
RO
Represents the compatibility of Ethernet service
under Channel BW of 5MHz in the specific Radio
Frame Pattern.
winlink1000OduAirHssRfpTdmChannelB
W5MHz
1.3.6.1.4.1.4458.1000.1.5.40.7.1.3 Integer
RO
Represents the compatibility of TDM service under
Channel BW of 5MHz in the specific Radio Frame
Pattern.
winlink1000OduAirHssRfpEthChannelB
W10MHz
1.3.6.1.4.1.4458.1000.1.5.40.7.1.4 Integer
RO
Represents the compatibility of Ethernet service
under Channel BW of 10MHz in the specific Radio
Frame Pattern.
winlink1000OduAirHssRfpTdmChannelB
W10MHz
1.3.6.1.4.1.4458.1000.1.5.40.7.1.5 Integer
RO
Represents the compatibility of TDM service under
Channel BW of 10MHz in the specific Radio Frame
Pattern.
winlink1000OduAirHssRfpEthChannelB
W20MHz
1.3.6.1.4.1.4458.1000.1.5.40.7.1.6 Integer
RO
Represents the compatibility of Ethernet service
under Channel BW of 20MHz in the specific Radio
Frame Pattern.
winlink1000OduAirHssRfpTdmChannelB
W20MHz
1.3.6.1.4.1.4458.1000.1.5.40.7.1.7 Integer
RO
Represents the compatibility of TDM service under
Channel BW of 20MHz in the specific Radio Frame
Pattern.
RADWIN 1000/2000 User Manual
Version 2.5p-4
F-9
MIB Parameters
Appendix F
Table F-2: Private MIB Parameters (Sheet 6 of 14)
OID
Type
winlink1000OduAirLockRemote
1.3.6.1.4.1.4458.1000.1.5.41
Integer
RW This parameter enables locking the link with a
specific ODU. The following values can be set:
Unlock (default) - The ODU is not locked on a
specific remote ODU. Unlock can only be
performed when the link is not connected. Lock The ODU is locked on a specific remote ODU.
Lock can only be performed when the link is
active.
winlink1000OduAirAntennaGain
1.3.6.1.4.1.4458.1000.1.5.42
Integer
RW Current Antenna Gain in 0.1 dBi resolution. User
defined value in case of external antenna. Legal
range:
MinAntennaGain - Alarm.
externalAlarmInPort2Alarm
106
major
The trap is sent every time an alarm occurs in the External Alarm Input of
port #2. Contains a single parameter which is its description: 1 Description: External Alarm 2 -  - Alarm.
bitFailedAlarm
107
critical
The trap is sent in case there is no way to recover from the situation.
Contains two parameters: 1 - Description: ODU power up built in test
failed. Error code is: %n. 2 - %n number.
wrongConfigurationLoadedAlarm
108
major
The trap is sent in case there is a way to recover from the situation.
Contains two parameters: 1 - Description: Wrong configuration loaded.
Error code is: %n. 2 - %n number.
lanPort1DisconnectedAlarm
109
major
Indicates the LAN port 1 status changed to disconnected. Contains a
single parameter which is its description: 1 - Description: LAN port 1
status changed to disconnected.
lanPort2DisconnectedAlarm
110
major
Indicates the LAN port 2 status changed to disconnected. Contains a
single parameter which is its description: 1 - Description: LAN port 2
status changed to disconnected.
mngPortDisconnectedAlarm
111
major
Indicates the management port status changed to disconnected.
Contains a single parameter which is its description: 1 - Description:
Management port status changed to disconnected.
externalAlarmInPort3Alarm
112
major
The trap is sent every time an alarm occurs in the External Alarm Input of
port #3. Contains a single parameter which is its description: 1 Description: External Alarm 3 -  - Alarm.
externalAlarmInPort4Alarm
113
major
The trap is sent every time an alarm occurs in the External Alarm Input of
port #4. Contains a single parameter which is its description: 1 Description: External Alarm 4 -  - Alarm.
swVersionsMismatchFullCompatibilityAlarm
114
warning
The trap is sent in case SW versions mismatch with full link functionality.
Contains a single parameter which is its description: 1 - Description:
Software versions mismatch - full link functionality
swVersionsMismatchRestrictedCompatibilityAlarm
115
minor
The trap is sent in case SW versions mismatch with restricted link
functionality. Contains a single parameter which is its description: 1 Description: Software versions mismatch - restricted link functionality
swVersionsMismatchSoftwareUpgradeRequired
116
major
The trap is sent in case SW versions mismatch and SW upgrade is
required. Contains a single parameter which is its description: 1 Description: Software versions mismatch - Software upgrade required
swVersionsIncompatible
117
critical
The trap is sent in case SW versions are incompatible. Contains a single
parameter which is its description: 1 - Description: SW Versions
incompatible
tdmBackupAlarm
121
major
Indicates that the TDM backup link was activated. Contains a single
parameter, which is its description: 1 - Description: TDM backup alarm backup link was activated.
linkLockUnautorizedRemoteODU
122
major
Indicates that the remote ODU is unautorized. Contains a single
parameter which is its description: 1 - Description: Unauthorized remote
ODU connection rejected.
linkLockUnautorizedODU
123
major
Indicates that the ODU is unautorized. Contains a single
parameter which is its description: 1 - Description: Unauthorized ODU
connection rejected.
tdmServiceClear
200
normal
Indicates that TDM Service fault is cleared. Contains a single parameter,
which is its description: 1 - Description: TDM Service - Normal.
ethServiceOpened
201
normal
Indicates that Ethernet Service has been opened. Contains a single
parameter,3 which is its description: 1 - Description: Ethernet Service has
been opened.
encryptionClear
203
normal
Indicates that encryption is OK. Contains a single parameter which is its
description: 1 - Description: Encryption Status - Normal.
RADWIN 1000/2000 User Manual
Version 2.5p-4
F-20
RADWIN Manager Traps
Appendix F
Table F-3: MIB Traps (Sheet 4 of 4)
Name
ID
Severity
Description
changeLinkPasswordClear
204
normal
Indicates that the Link Password was changed successfully. Contains a
single parameter which is its description: 1 - Description: Link Password
has been changed at/on: %s. %s - Is the Local Site name or Remote Site
name or both sides of the Link.
externalAlarmInPort1Clear
204
normal
This Trap is sent every time an External Alarm Input fault of port # 1 is
cleared. Contains a single parameter which is its description: 1 Description: External Alarm 1 -  - Alarm Cleared.
externalAlarmInPort2Clear
206
normal
This Trap is sent every time an External Alarm Input fault of port # 2 is
cleared. Contains a single parameter which is its description: 1 Description: External Alarm 2 -  - Alarm Cleared.
lanPort1Clear
209
normal
Indicates the LAN port 1 status changed to connected. Contains two
parameters: 1 - Description: LAN port 1 status changed to connected %s. 2 - %s Is the Eth. mode (speed & duplex).
lanPort2Clear
210
normal
Indicates the LAN port 2 status changed to connected. Contains two
parameters: 1 - Description: LAN port 2 status changed to connected %s. 2 - %s Is the Eth. mode (speed & duplex).
mngPort2Clear
211
normal
Indicates the management port status changed to connected. Contains
two parameters: 1 - Description: Management port status changed to
connected - %s. 2 - %s Is the Eth. mode (speed & duplex).
externalAlarmInPort3Clear
211
normal
This Trap is sent every time an External Alarm Input fault of port # 3 is
cleared. Contains a single parameter which is its description: 1 Description: External Alarm 3 -  - Alarm Cleared.
externalAlarmInPort4Clear
213
normal
This Trap is sent every time an External Alarm Input fault of port # 4 is
cleared. Contains a single parameter which is its description: 1 Description: External Alarm 4 -  - Alarm Cleared.
swVersionsMatchFullCompatibilityClear
214
normal
The trap is sent in case SW versions match. Contains a single parameter
which is its description: 1 - Description: Software Versions compatible
swVersionsMatchRestrictedCompatibilityClear
215
normal
The trap is sent in case SW versions match and link functionality is not
restricted. Contains a single parameter which is its description: 1 Description: Software Versions compatible
swVersionsMatchSoftwareUpgradeRequiredClear
216
normal
The trap is sent in case SW versions match and SW upgrade is
successful. Contains a single parameter which is its description: 1 Description: Software Versions compatible
swVersionsCompatibleClear
217
normal
The trap is sent in case SW versions compatible Contains a single
parameter which is its description: 1 - Description: Software Versions
compatible
tdmBackupClear
221
normal
linkLockAutorizedODU
223
normal
Indicates that the ODU is autorized. Contains a single parameter which
is its description: 1 - Description: Authorized ODU connection permitted.
linkAuthenticationDisabled
224
normal
Indicates that the Link Lock is disabled. Contains a single parameter
which is its description: 1 - Description: Link Authentication has been
disabled
RADWIN Manager Traps
The RADWIN Manager application issues traps to indicate various events.
These traps are shown in the RADWIN Managerr Events Log.
A list of Trap Messages as displayed by the RADWIN Manager is shown in
table 7-5.
RADWIN 1000/2000 User Manual
Version 2.5p-4
F-21
Appendix G
External Alarms
Specification
External Alarms Specification
The IDU-C supports external input and output alarms through a standard
DB25 pin female connector.
Input alarms
The input alarms are raised by events from external equipment, such as
a fire warning, door open or air conditioner failure.
Output alarms
Output alarms are generated through dry contact relays to indicate various system events according to the following table. An alarm is raised if
at least one of the conditions is met.
Table G-1: Output Alarms Pinout
Alarm
Description
Alarm On Conditions
Alarm Off Condition
Output 1
Air interface Alarm
•
•
•
Link is down
Link in installation mode
Link authentication problem
Output 2
Equipment Alarm
•
•
•
Both ODU and IDU are in
Built in Test (BIT) error
operational state
No connection to the ODU
Incompatible software
Output 3
Service Alarm at Site B
N/A
Permanently off
Output 4
Power Failure at Site B
Link Loss due to Power Failure
at Site B
Link is up or down without power failure indication within the last two
seconds
RADWIN 1000/2000 User Manual
Version 2.5p-4
Link is up
G-1
Appendix H
Combo Configuration Tool
What is the Combo Configuration Tool?
The RADWIN 1000/2000 is supplied preconfigured to a default frequency
band and regulation. The user may however, reconfigure it to use any one
of the supported frequency bands shown in the following example:
Product
Default Band
FCC/IC 5.8 GHz
FCC/IC 5.3 GHz
2050
FCC/IC 5.4 GHz
FCC/IC 4.9 GHz
FCC/IC 2.4 GHz
The Combo Configuration Tool is a software utility supplied by RADWIN to
change the link frequency band. It runs as familiar Windows Wizard.
This appendix will walk you through the Wizard. It also provides help for
common problems encountered during the configuration.
Who may use the Combo Configuration Tool
The Combo Configuration Tool is a password protected utility intended for
the use of RADWIN accredited personnel at the user’s site, RADWIN Customer Support Engineers or Professional Installers conversant with FCC
requirements.
Caveat to the use of the Combo Configuration Tool
It is the user’s responsibility to operate the system according to local regulations and to acquire the relevant permits or licenses for the frequency band
selected, if applicable.
RADWIN 1000/2000 User Manual
Version 2.5p-4
H-1
Prerequisites to using the Combo Configuration Tool
Appendix H
Prerequisites to using the Combo Configuration Tool
To use the Tool, you need a PC running Windows 2000 or Windows XP Pro
to be connected to the RADWIN 1000/2000 link.
Operating the Combo Configuration Tool
The tool is supplied as an executable called ComboConfigurationTool.exe. It
should be copied to a convenient directory on a hard disk from where it can
be run from a command line, or placed on the desktop and opened with a
double click.
The Combo Configuration Tool is a Wizard, which guides you through the
process of changing the frequency band.
Before using the Combo Configuration Tool
Before starting:
⇒ Obtain the IP address of both the local ODU and remote ODUs of
the link
⇒ Make a note of the correct required frequency band
⇒ If the link uses external antennas, ensure that they support your
required frequency band
Also, note that
1. The procedure below must be carried out for both ODUs in the link.
2. Changing the frequency band may affect the available Link Budget and
system performance.
Using the Combo Configuration Tool
¾ To change the link frequency band:
1. Open the Tool from a command line or double clicking it on the desktop.
The following Welcome screen appears:
RADWIN 1000/2000 User Manual
Version 2.5p-4
H-2
Using the Combo Configuration Tool
Appendix H
2. Click Next. The window below is displayed:
3. Enter the ODU IP address and password.
4. Click Next. The following progress panel is displayed:
RADWIN 1000/2000 User Manual
Version 2.5p-4
H-3
Using the Combo Configuration Tool
Appendix H
Upon completion the following screen is displayed:
The checked item is the currently configured frequency band.
5. Check the box with the required frequency band. If you do not see the
required frequency band in the above window, click Cancel and consult
RADWIN Customer Support.
RADWIN 1000/2000 User Manual
Version 2.5p-4
H-4
Using the Combo Configuration Tool
Appendix H
6. Otherwise, click Next. The following window is displayed:
7. If the legal notice is acceptable, click the “I accept” radio button, and
then click Next. Two successive progress panels are displayed. The configuration may take several minutes.
RADWIN 1000/2000 User Manual
Version 2.5p-4
H-5
If you receive an error message
Appendix H
Upon successful completion of the configuration process, the following
termination window is displayed:
8. Click Finish to exit the Wizard as shown.
9. Repeat the whole process for the second ODU in the link.
If you receive an error message
The last stage above may terminate unsuccessfully due to an error. Error
messages are posted to a window like this:
RADWIN 1000/2000 User Manual
Version 2.5p-4
H-6
If you receive an error message
Appendix H
The following table sets out possible errors:
Error Number Error Text Message
(nn)
Common message preamble:
The Configure procedure has failed with the following error: ERROR nn
occurred:
120
Failed to communicate with the ODU. Please verify the existence of a stable IP connection and try again.
940
Product is not identified.
1040
The ODU is not a Combo product.
1020
A configuration problem detected. Aborting.
The only items requiring explanation are errors 940 and 1020.
Error 940 may arise as a result of an ODU firmware problem. Error 1020 will
appear for any reason not caught by the other entries in the table. In all
such cases, you should consult with RADWIN Customer Support.
RADWIN 1000/2000 User Manual
Version 2.5p-4
H-7
Appendix I
Regional Notice: French
Canadian
Procédures de sécurité
Généralités
Avant de manipuler du matériel connecté à des lignes électriques ou de
télécommunications, il est conseillé de se défaire de bijoux ou de tout autre
objet métallique qui pourrait entrer en contact avec les éléments sous tension.
Mise à la terre
Tous les produits RADWIN doivent être mis à la terre pendant l'usage courant. La mise à la terre est assurée en reliant la fiche d'alimentation à une
prise de courant avec une protection de terre. En outre:
•
La cosse de masse sur l'IDU-C doit être constamment connectée à
la protection de terre, par un câble de diamètre de 18 AWG ou plus.
Le matériel monté sur rack doit être installé seulement sur des racks
ou armoires reliés à la terre
•
Une ODU doit mise à la terre par un câble de diamètre de 12 AWG
ou plus
•
Il ne doit pas y avoir de fusibles ou d'interrupteurs sur la connection
à la terre
De plus:
•
Il faut toujours connecter la terre en premier et la déconnecter en
dernier
•
Il ne faut jamais connecter les câbles de télécommunication à du
matériel non à la terre
•
Il faut s'assurer que tous les autres câbles sont déconnectés avant
de déconnecter la terre
RADWIN 1000/2000 User Manual
Version 2.5p-4
I-1
Protection contre la foudre
Appendix I
Protection contre la foudre
L'utilisation de dispositifs de protection contre la foudre dépend des exigences réglementaires et de l'utilisateur final. Toutes les unités extérieures
RADWIN sont conçues avec des circuits de limitation de surtension afin de
minimiser les risques de dommages dus à la foudre. RADWIN conseille l'utilisation d'un dispositif de parafoudre supplémentaire afin de protéger le
matériel de coups de foudre proches.
Matériel supplémentaire requis
L'équipement requis pour l'installation du matériel est le suivant:
•
Pince à sertir RJ-45 (si un câble pré-assemblé ODU/IDU n'est pas
utilisé)
•
Perceuse (pour le montage sur mur seulement)
•
Câbles de terre IDU et ODU
•
Clef 13 mm (½″)
•
Câble ODU - IDU si non commandé (type extérieur, CAT-5e, 4 paires
torsadées, 24 AWG)
•
Colliers de serrage
•
Ordinateur portable avec Windows 2000 ou Windows XP.
Précautions de sécurité pendant le montage de ODU
Avant de connecter un câble à l'ODU, la borne protectrice de masse (visse)
de l'ODU doit être connectée à un conducteur externe protecteur ou à un
pylône relié à la terre. Il ne doit pas y avoir de fusibles ou d'interrupteurs
sur la connection à la terre.
Seulement un personnel qualifié utilisant l'équipement de sécurité approprié
doit pouvoir monter sur le pylône d'antenne. De même, l'installation ou le
démontage de ODU ou de pylônes doit être effectuée seulement par des
professionnels ayant suivi une formation.
¾ Pour monter l'ODU:
1. Vérifier que les supports de fixation de l'ODU sont correctement mis à la
terre.
2. Monter l'unité ODU sur le pylône ou sur le mur; se référer à la Installation sur pylône et mur au dessous.
3. Connecter la câble de terre au point de châssis sur l'ODU.
4. Relier le câble ODU-IDU au connecteur ODU RJ-45.
5. Visser les presses-étoupe de câbles pour assurer le scellement hermétique des unités ODU.
6. Attacher le câble au pylône ou aux supports en utilisant des colliers classés UV.
7. Répéter la procédure sur le site distant.
RADWIN 1000/2000 User Manual
Version 2.5p-4
I-2
Connecter la terre à IDU-C
Appendix I
Ne pas se placer en face d'une ODU sous tension.
Prudence
Connecter la terre à IDU-C
Connecter un câble de terre de 18 AWG à la borne de masse de l'appareil.
L'appareil doit être constamment connecté à la terre.
Prudence
•
Les appareils sont prévus pour être installés par un personnel de service.
•
Les appareils doivent être connectés à une prise de courant avec une
protection de terre.
•
Le courant CC du IDU-C doit être fourni par l'intermédiaire d'un disjoncteur bipolaire et le diamètre du câble doit être de 14 mm avec un
conduit de 16 mm.
RADWIN 1000/2000 User Manual
Version 2.5p-4
I-3
Installation sur pylône et mur
Appendix I
Installation sur pylône et mur
L' ODU ou l'O-PoE peuvent être montés sur un pylône ou un mur.
Contenu du kit de montage ODU
Le kit de montage ODU comprend les pièces suivantes:
•
une grande clame (voir figure I-1)
•
une petite clame (voir figure I-2)
•
un bras (voir figure I-3)
•
quatre visses hex tête M8x40
•
deux visses hex tête M8x70
•
quatre rondelles plates M8
•
trois rondelles élastiques M8
•
deux écrous M8.
Figure I-1: grande clame
RADWIN 1000/2000 User Manual
Figure I-2: petite clame
Version 2.5p-4
Figure I-3: bras
I-4
Montage sur un pylône
Appendix I
Montage sur un pylône
Figure I-4: Montage sur un pylône
RADWIN 1000/2000 User Manual
Version 2.5p-4
I-5
Montage sur un mur
Appendix I
Montage sur un mur
Figure I-5: Montage sur un mur
RADWIN 1000/2000 User Manual
Version 2.5p-4
I-6
Montage d'une antenne externe
Appendix I
Montage d'une antenne externe
L'antenne externe optionnelle peut être montée sur un pylône.
Contenu du kit de montage d'une antenne externe
Le kit de montage d'une antenne externe comprend les pièces suivantes
•
Douze rondelles plates
•
Huit rondelles élastiques
•
Huit écrous hex
•
Quatre boulons
•
Un support en U
•
Un support à pivotement
•
Deux courroies de fixation en métal
¾ Pour installer une antenne externe sur un pylône:
1. Attacher le support en U à l'arrière de l'antenne en utilisant quatre rondelles plates, quatre rondelles élastiques et quatre écrous hex.
2. Attacher le support à pivotement au support en U en utilisant huit rondelles plates, quatre rondelles élastiques, quatre écrous hex et quatre
boulons.
3. Passer les deux courroies de fixation par les fentes verticales dans le support à pivotement.
4. Attacher l'antenne au pylône en utilisant les deux courroies de fixation .
Ajuster l'inclinaison nécessaire en utilisant l'échelle angulaire et serrer tous
les boulons et écrous à la position requise.
RADWIN 1000/2000 User Manual
Version 2.5p-4
I-7
Index
Index
AAR
1-3
ACS
4-17, 6-20, F-8, F-8
aging time, ODU Bridge Mode
6-10
Air Interface
1-11, 1-11
Technical Specifications, general
A-1
Alarms
Active
7-9
summary
7-14
Connector
B-3
External , specification
G-1
Antennas
Align with beeper
3-12
Aligning
3-12
bipolar
3-12
Buzzer signals
3-13
monopolar
3-13
Cable, grounding
E-1
Connecting
3-12
Described
1-8
External
Mounting
3-7
Package Contents
3-5
External, Mounting
C-3
Flat panel
1-10
Parabolic Dish
1-10
Settings
4-19, 5-18
types
1-7
Applications
Broadband Access
1-2
IP Backhaul
1-2
Private Networks
1-2
WiMAX
1-2
Automatic Adaptive Rate, see AAR
1-3
Automatic Channel Selection, see ACS
Automatic Repeat Request
1-4
backup
configuration file
ODU replacement
Beeper
mute
muting and restoring
restore
RADWIN 1000/2000 User Manual
Bridge mode,Telnet commands
Buzzer, see Beeper
Changing link password
4-16
Channel, selecting
4-17, 5-12
Community Strings
Changing
6-16
Editing
6-15
Factory Default
6-14, F-2
Forgotten passwords
6-16
MIB
F-2
passwords
4-4
Read-Only
6-14
Read-Write
6-14
Trap
6-14
Configuration Parameters
6-3
Configuring
Advanced
6-2, 6-9, 6-11, 6-12, 6-18
Air Interface
6-2
Air interface
5-1
Bridge mode
6-1
Community values.
6-1
contact person
6-2
Date and Time
6-2
Ethernet mode
6-1
Frequency channel
5-1
Security
6-2
Service parameters
5-1
System
6-2
System parameters
5-1
Transmit power
6-1
View Inventory
6-2
Connecting user equipment
4-17, 5-12
Customer Support
7-17
Date and time, setting
Default log on password
6-2
7-16
6-17
6-3
6-17
6-21
6-2, 6-7
4-4
Events
color codes
log
priority
Version 2.5p-4
7-12
7-2, 7-4
7-13
Index 1
F
Factory Defaults
6-14, F-2
Reset to
6-19
Factory Setup
Restoring
7-17
FEC
4-21, 4-22, A-2, A-3
Forward Error Correction, see FEC
Gateway
Telnet display
6-2
6-20
IDU
Aging time
6-10
aging time, ODU Bridge Mode
6-10
Connecting to ODU
3-11
described
1-7
IDU-C
Alarm Connector
B-3
Connectors
B-4
Front panel
1-8
Described
3-9
LEDs
3-9, 3-10, 4-2
Mounting
3-8
Power connections
3-11, 3-11
Package Contents
3-4
Products
1-7
Indoor Unit, see IDU
Installation
Menu and Toolbar Functionality
4-10
Post Configuration main window
5-22
Post Installation main window
4-27
see Link, Installation
Installation Mode
6-3, 6-3, 6-12
Inventory
6-16
Displaying
6-12
IP address
6-2
Telnet display
6-20
Key Features of Radio Link
Advanced Air Interface
Capacity
Combo Frequency Products
Installation and management
Range performance
Security
Spectral Efficiency
Transmission (Tx) power
1-3
1-3
1-3
1-4
1-4
1-4
1-3
1-4
LBC
Browser warnings
Calculations
Climactic C Factors
RADWIN 1000/2000 User Manual
7-4
D-6
D-2
D-10
D-1
described
Fresnel Zone, described
D-13
Internal data
D-1
Running
D-3
User input
D-1
Lightning and Grounding Guidelines
E-1
Link
Budget Calculator, see LBC
Configuration
5-1
Overview
5-10
Step 1 - Start Wizard
5-11
Step 2- System Parameters
5-11
Step 3 - Channel Settings
5-12
Step 4 - Tx Power and Antenna Settings
5-18
Step 5 - Services
5-20
Step 6 - Summary and exit
5-21
default frequency
4-18
default Settings
4-9
Information
7-1
Air Interface Thresholds
BBER Threshold
7-9
RSL Threshold
7-9
Air Interface Thresholds, setting
7-9
Alarms
Active summary
7-14
Error detection and
7-14
output
7-15
saved
7-14
Compatibility
7-3
Trap messages
7-3
Events Log
7-4
Events log
Events references
trap
background color
7-13
default colors
7-13
foreground color
7-12
Preferences
7-12
saving
7-13
Monitor log
7-4, 7-4
saving
7-4
Online Help
7-17
Performance data, explained
7-8
Performance monitoring
7-4
Performance Reports
7-5
Remote Power Fail Indication
7-15
“Dying-Gasp” circuit
7-15
Troubleshooting
7-16
Installation
4-7
ODU
Mast and Wall
C-1
Overview
4-13
Step 1 - Start Wizard
4-14
Step 2 - System Parameters
4-14
Step 3 - Channel Settings
4-17
Step 4 - Tx Power and Antenna Settings
Version2.5p-4
Index 2
4-19
Background
4-20
Step 5 - Services
4-25
Step 6 - Summary and Exit
4-26
Link ID
4-9, 4-15, 6-20, 7-16, 7-16, 7-17
Login
4-3
Login Errors
Incorrect IP Address
4-6
Incorrect password
4-6
Unsupported Device
4-5
Login showing Community Options
4-5
Manager Software
4-2
Name
4-15
Password
1-5, 7-17
changing
4-16
Post Configuration main window
5-22
Post Installation main window
4-27
Reinstalling/Realigning
7-3
Site names
4-15
Link Budget Calculator, see LBC
7-4
Link ID
4-9, 4-15, 6-20, 7-16, 7-16, 7-17
Link Site
Planning
2-1
Survey
2-1
Stage 1 - Preliminary Survey
2-2
Stage 2 - Physical Survey
2-3
Additional Indoor Site Requirements
2-4
Additional Outdoor Site Requirements
2-4
Stage 3 - RF Survey
2-4
Login Errors
Incorrect IP Address
4-6
Incorrect password
4-6
Unsupported Device
4-5
Management
Addresses
and trap addresses
Configuring the Site
Screen, Telnet
Manager Software
Change log on password
Events Log
Installing
Main window
Details pane
Main menu
Toolbar
main window
Monitor pane
Ethernet Service
Radio Interface,
Radio signal strength
Off-line functionality
RADWIN 1000/2000 User Manual
6-4
6-1
6-2
6-22
4-7
5-8
4-1
5-1
5-6
5-3
5-2
4-5
5-7
5-7
5-7
5-7
4-6
Status Bar
5-9
Manual
Chapters by Audience
1-13
Conventions
1-15
Terminology
1-13
MIB
About
F-1
Community String
F-2
Interface API
F-1
Parameters
F-4
Private
F-2
Private Parameters
F-5
Reference
F-1
Supported Variables from the RFC 1213 F-4
Terminology
F-1
Traps
F-18
Parameters
F-18
ODU
Bridge Mode
aging time
Connectorized
described
form factors
Installation, Mast and Wall
Integrated Antenna
Mounting Kit
Package Contents
Products
Replacing
With integrated antenna
1-6
6-10
1-5, 1-6
1-5
1-6
C-1
1-5, 1-6
C-1
3-2
1-7
7-16
1-9
Package, contents of
3-2
Password
Community
4-4, 4-4
Default
4-4
default log on
4-4
Link
1-5, 7-17
PC, Minimum Requirements
4-1
Performance
Monitor
7-2
Performance Monitoring, set time interval
7-4
PoE
Described
1-8
PoE device, see PoE
Power over Ethernet, see PoE
Protection
External Lightning Surge Suppressors
E-3
Grounding
Antenna cable
E-1
IDUs
E-2
ODUs
E-2
Internal ESD Protection circuits
E-7
Version2.5p-4
Index 3
R
Radio Link
Accessories
1-12
Additional Tools and Materials Required 3-5
Connecting user equipment
3-12
Described
1-5
Documentation set
1-12
Hardware Installation
External Antennas
3-7
Indoor
3-8
Lightning protection
3-7
Mounting U
3-8
ODU
3-6
Outdoor
3-6
Outdoor connections
3-8
Sequence
3-5
Package Contents
3-2
IDU
3-4
ODU
3-2
Package contents
External Antennas
3-5
Transmission rates
4-22
Radio Outdoor Unit, see ODU
Replacing an ODU
7-16
restore configuration file
6-2
Safety Practices
3-1
Grounding
3-1
Preventing overexposure to RF energy 3-1
Selecting channel
4-17, 5-12
Site
Configuration
Configuration Files
6-18
backup to
6-18
Configuration files
restore from
6-19
Configuration with Telnet
6-20
Dialog
Change Tx Power
6-4
Ethernet Properties
6-9
Configuring
Bridge
6-9
Maximum information rate 6-12
Ports Mode
6-11
Ethernet PropertiesIDU Aging time 610
Functions
6-2
Inventory
6-12
Menu bar
6-2
Setting the date and time
6-7
View Air Iinterface details
6-3
VLAN Settings
6-5
Lost or forgotten VLAN ID 6-7
Priority number
6-6
VLAN ID
6-6
External Alarm Inputs
6-17
RADWIN 1000/2000 User Manual
6-19
Reset site
Reset site to factory defaults
6-19
Reset site, preserve current configuration
6-19
Security Features
6-13
Community Strings
6-14
Editing
6-15
Forgotten paswwords
6-16
Initial log on defaults
6-15
Default Gateway
6-5
IP address
6-5, 6-5
Trap Destination
6-5
Technical Specifications
Air Interface
Air Interface, general
Configuration
EMC
Environmental
Ethernet Interface
Management
Mechanical
Power
Radio
Safety
Trap messages
typical installation
A-4
A-1
A-1
A-4
A-4
A-3
A-3
A-3
A-3
A-1
A-4
7-3
3-5
User equipment, connecting
4-17, 5-12
Wiring Specifications
Alarm
Connector
IDU-C
Connectors
IDU-C
User Port
LAN
Ports
ODU-IDU Cable
Ports
LAN
User Port Connectors
Version2.5p-4
B-1
B-3
B-4
B-1
B-1
B-1
B-1
B-1
Index 4
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