Motorola Solutions 89FT7634 Outdoor Fixed Wireless O.F.D.M. Transceiver User Manual Exhibit D Users Manual per 2 1033 b3

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Exhibit D Users Manual per 2 1033 b3

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Supplement to the Canopy® System Release 8 User Guide
PMP 400/430 Series Networks
PTP 200 Series Bridges
Issue 4 DRAFT 6
November 2009
PMP 400/430 and PTP 200 Series
Supplement
Canopy User Guide
Notices
See important safety notice on exposure distance in Section 6.3 on page 60.
See important regulatory and legal notices in Section 6 on page 55.
Trademarks, Product Names, and Service Names
MOTOROLA, the stylized M Logo, Canopy, and all other trademarks indicated as such herein are
registered trademarks of Motorola, Inc. ® Reg. US Pat & Tm. Office. All other product or service
names are the property of their respective owners.
© 2009 Motorola, Inc. All rights reserved
http://www.motorola.com/canopy
Issue 4 0 – DRAFT 6 November 2009
Page 2 of 64
PMP 400/430 and PTP 200 Series
Supplement
Canopy User Guide
Table of Contents
Introduction ................................................................................................................. 7
1.1
Document Change History .................................................................................. 8
1.2
Abbreviations ...................................................................................................... 9
1.3
Feedback on Documentation ............................................................................ 10
1.4
Technical Support ............................................................................................. 10
Product Description .................................................................................................. 11
2.1
Technology and Benefits................................................................................... 18
2.1.1
2.2
Applications ....................................................................................................... 19
2.3
Configuration Options – RF, IP, DFS ................................................................ 20
2.4
Power and Grounding ....................................................................................... 20
2.5
Administration Systems..................................................................................... 22
2.6
Specifications .................................................................................................... 22
2.7
2.6.1
Radio specifications (common to all formats) ................................................... 22
2.6.2
Specifications for PMP 430 SM radio with integrated antenna ......................... 23
2.6.3
Specifications for PMP 430 SM radio with optional LENS ................................ 23
2.6.4
Specifications for PMP 400 and PTP 200 radio with integrated antenna ......... 24
2.6.5
Specification for PMP 400 and 430 connectorized radio .................................. 24
2.6.6
Specifications for PMP 400/430 kitted, connectorized radio (antenna included)25
Performance...................................................................................................... 26
Planning ..................................................................................................................... 27
3.1
Tower Channel Planning ................................................................................... 27
3.2
Down tilt ............................................................................................................ 28
3.3
Weather Radar .................................................................................................. 28
3.4
Range and throughput planning ........................................................................ 29
3.5
Spectrum Analyzer ............................................................................................ 29
3.6
Collocation of 5.8 GHz OFDM with Standard 5.7 GHz Canopy FSK ................ 30
3.7
nLOS Benefits and Limitations .......................................................................... 18
3.6.1
Channel Spacing ............................................................................................... 30
3.6.2
Frame Calculations and Configuration Settings ................................................ 30
Collocation of 5.4 GHz OFDM with Standard 5.4 GHz Canopy FSK ................ 31
3.7.1
Channel Spacing ............................................................................................... 31
3.7.2
Frame Calculations and Configuration Settings ................................................ 31
Configuring ................................................................................................................ 33
4.1
Link Operation – 1X/2X/3X................................................................................ 33
Issue 4 0 – DRAFT 6 November 2009
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PMP 400/430 and PTP 200 Series
Supplement
Canopy User Guide
4.2
Transmitter Output Power (and no Jitter) .......................................................... 34
4.3
Downlink Data %, Range, and Control Slots..................................................... 35
4.4
DFS and Regulatory Parameters for 5.8 & 5.4 GHz Radios ............................. 37
4.4.1
Background and Operation ............................................................................... 38
4.4.2
Setting DFS and Regulatory Parameters .......................................................... 40
4.5
Net Antenna Gain Field ..................................................................................... 43
4.6
Network Control Parameters ............................................................................. 44
4.7
Forward Error Correction .................................................................................. 44
4.8
Cyclic Prefix (Configurable only on PTP 200 BH & PMP 430 AP/SM) .............. 45
Installation ................................................................................................................. 46
5.1
Installing an AP with Connectorized Antenna ................................................... 46
5.2
Installing an SM or BH with an Integrated Antenna .......................................... 53
Regulatory and Legal Notices .................................................................................. 55
6.1
Important Note on Modifications ....................................................................... 55
6.2
National and Regional Regulatory Notices ....................................................... 55
6.2.1
U.S. Federal Communication Commission (FCC) Notification ......................... 55
6.2.2
Industry Canada (IC) Notification ...................................................................... 57
6.2.3
Regulatory Requirements for CEPT Member States (www.cept.org) ............... 57
6.2.4
Equipment Disposal .......................................................................................... 58
6.2.5
EU Declaration of Conformity for RoHS Compliance ........................................ 58
6.2.6
Luxembourg Notification.................................................................................... 58
6.2.7
Czech Republic Notification .............................................................................. 58
6.2.8
Greece Notification ............................................................................................ 58
6.2.9
Brazil Notification............................................................................................... 58
6.2.10 Labeling and Disclosure Table for China .......................................................... 59
6.3
Exposure Separation Distances ........................................................................ 60
6.3.1
Details of Exposure Separation Distances Calculations and Power
Compliance Margins ....................................................................................................... 60
6.4
6.5
Legal Notices .................................................................................................... 62
6.4.1
Software License Terms and Conditions .......................................................... 62
6.4.2
Hardware Warranty in US ................................................................................. 64
Limit of Liability.................................................................................................. 64
Issue 4 0 – DRAFT 6 November 2009
Page 4 of 64
PMP 400/430 and PTP 200 Series
Supplement
Canopy User Guide
List of Tables
Table 1: Motorola PMP 400/430 and PTP 200 Series .................................................... 11
Table 2: 5.8GHz OFDM - PMP 430 Series Model Number Descriptions ........................ 12
Table 3: 5.4GHz OFDM - PMP 400 and PTP 200 Model Number Descriptions ............. 13
Table 4: 4.9GHz OFDM - PMP 400 and PTP 200 Model Number Descriptions ............. 14
Table 5: CMM4 56VDC and 30 VDC Operation.............................................................. 15
Table 6: Ancillary Equipment and Model Numbers ......................................................... 17
Table 7: Performance Details.......................................................................................... 26
Table 8: 5.8 GHz Channel Center Frequencies, by Region ............................................ 27
Table 9: 5.4 GHz Channel Center Frequencies, by Region ............................................ 28
Table 10: 4.9 GHz Channel Center Frequencies ............................................................ 28
Table 11: Control Slot Settings ....................................................................................... 36
Table 12: 5.4 / 5.8 GHz DFS Operation based on Region Code .................................... 38
Table 13: US FCC IDs and Industry Canada Certification Numbers and Covered
Configurations .......................................................................................................... 56
Table 14: Disclosure Table ............................................................................................. 60
Table 15: Exposure Separation Distances ...................................................................... 60
Table 16: Calculated Exposure Distances and Power Compliance Margins .................. 61
List of Figures
Figure 1: PMP 430 CAP 58430 - 5.8 GHz ........................................................................ 7
Figure 2: PMP 400 CAP 54400 - 5.4 GHz ........................................................................ 7
Figure 3: PMP 400 CAP 49400 - 4.9 GHz ........................................................................ 7
Figure 4: PMP 430 CSM 58430 – 5.8GHz ........................................................................ 7
Figure 5: PMP 400 CSM 54400 - 5.4GHz ......................................................................... 7
Figure 6: PMP 400 CSM 49400 - 4.9 GHz ........................................................................ 7
Figure 7: PTP 200 Integrated ............................................................................................ 7
Figure 8: PTP 200 Connectorized ..................................................................................... 7
Figure 9: CMM4 56 VDC Power Supply.......................................................................... 15
Figure 10: CMMmicro and CMM4 30 VDC Power Supply .............................................. 15
Figure 11: CMM4 - 56 VDC and 30 VDC terminal blocks ............................................... 15
Figure 12: 600SS Surge Suppression AP and SM diagram ........................................... 16
Figure 13: LOS, nLOS, and NLOS .................................................................................. 19
Figure 14: AP Grounding Lug ......................................................................................... 21
Issue 4 0 – DRAFT 6 November 2009
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PMP 400/430 and PTP 200 Series
Supplement
Canopy User Guide
Figure 15: 600SS pole mount kit ..................................................................................... 21
Figure 16: PMP 430 SM .................................................................................................. 23
Figure 17: PMP 430 SM with Optional LENS.................................................................. 23
Figure 18: PMP 400 and PTP 200 radio with integrated antenna ................................... 24
Figure 19: PMP 400/430 connectorized radio ................................................................. 24
Figure 20: CAP 49400..................................................................................................... 25
Figure 21: CAP 58430 and CAP 54400 .......................................................................... 25
Figure 22: Dynamic Rate Adapt on AP "Configuration => General" page ...................... 33
Figure 23: SM Power Level on AP “Home => Session Status” page. ............................. 35
Figure 24: Max Range & Downlink Data on AP "Configuration => Radio" page. ............ 36
Figure 25: DFS Status on AP "Home => DFS Status" page. .......................................... 37
Figure 26: Region Code on AP “Configuration => General” page .................................. 41
Figure 27: Configured Region Code on SM Configuration => General page .................. 42
Figure 28: Active Region Code on SM Home => General Status page .......................... 42
Figure 29: Ground lug highlighted on AP ........................................................................ 52
Figure 30: Dielectric Grease – Apply to RJ45 connector ................................................ 53
Figure 31: Dielectric Grease - Insert Ethernet Cable ...................................................... 54
List of Procedures
Procedure 1: Finding collocation values using Frame Calculators ................................. 32
Procedure 2: Assembling a 5.8 or 5.4 GHz AP, and attaching to tower ......................... 47
Procedure 3: Assembling a 4.9 GHz AP, and attaching to tower.................................... 49
Procedure 4: Cabling and Grounding/Earthing the AP ................................................... 52
Issue 4 0 – DRAFT 6 November 2009
Page 6 of 64
PMP 400/430 and PTP 200 Series
Supplement
Canopy User Guide
1 Introduction
This guide provides product description, planning, configuration, and installation information
specific to the PMP 400/430 Series networks and PTP 200 Series bridges in 5.8-GHz, 5.4-GHz
and 4.9-GHz bands.
PMP 430 – 5.8 GHz
PMP 400 – 5.4 GHz
PMP 400 – 4.9 GHz
Figure 1: PMP 430
CAP 58430 - 5.8 GHz
Figure 2: PMP 400
CAP 54400 - 5.4 GHz
Figure 3: PMP 400
CAP 49400 - 4.9 GHz
Figure 4: PMP 430
CSM 58430 – 5.8GHz
Figure 5: PMP 400
CSM 54400 - 5.4GHz
Figure 6: PMP 400
CSM 49400 - 4.9 GHz
Integrated and Connectorized
Integrated and Connectorized
PTP 200 Backhauls – 5.4 & 4.9 GHz
Figure 7: PTP 200
Integrated
Figure 8: PTP 200
Connectorized
PTP 54200 and PTP 49200
PTP 54200 and PTP 49200
Issue 4 0 – DRAFT 6 November 2009
Page 7 of 64
PMP 400/430 and PTP 200 Series
Supplement
Canopy User Guide
This guide should be used along with the Canopy System Release 8 User Guide, which covers
general information, including all network features, RF control features, and GUI (Graphical User
Interface) features common across PMP 100, 400, and 500 Series networks and PTP 100 and
200 Series bridges. The Canopy System Release 8 User Guide is available from the “User
Guides” section of the Canopy Document Library,
http://motorola.motowi4solutions.com/support/library/?region=1&cat=8.
This guide assumes that the reader has general RF (Radio Frequency) and Internet Protocol (IP)
knowledge and background.
This issue, Issue 4, is consistent with features provided by Canopy Release 9.5 and 10.0.
Separate Release Notes for each release are available and include open issues and other
important information specific to each release.
1.1
DOCUMENT CHANGE HISTORY
Issue 1
First Issue
Issue 2
Added the following:
Issue 3
•
PTP 54200 BHs
•
Products using AES encryption
•
Release 8.4.3 features
Added the following 4.9-GHz public safety band products:
•
PMP 49400 APs and SMs
• PTP 49200 BHs
Made consistent with Canopy Release 9.4.2
Issue 4 Draft 5
Added the following
•
PMP 430 APs and SMs
•
Release 9.5 features to support PMP 400 and PTP
200 Series products
•
Release 10.0 features to support PMP 430 Series
products only (10 MHz Channel)
•
Updated customer support email and phone numbers
Issue 4 0 – DRAFT 6 November 2009
Page 8 of 64
PMP 400/430 and PTP 200 Series
Supplement
1.2
Canopy User Guide
ABBREVIATIONS
The following abbreviations may be used in these notes:
1X
2X
3X
AP
BH
BHM
BHS
CAP
CIR
CMM
CNUT
CSM
DFS
DHCP
DiffServ
EIRP
ETSI
FSK
GPS
MIB
NAT
OFDM
PMP
PTP
QAM
QPSK
RF
SM
VLAN
1X operation, with typical max aggregate (up and down)
throughput of 7 Mbps
2X operation, with typical max aggregate (up and down)
throughput of 14 Mbps
3X operation, with typical max aggregate (up and down)
throughput of over 20 Mbps
Access Point Module
Backhaul Module, either timing master or timing slave
Backhaul Module – timing master
Backhaul Module – timing slave
Access Point Module
Committed Information Rate
Cluster Management Module (CMM4 or CMMicro)
Canopy Network Updater Tool
Subscriber Module
Dynamic Frequency Selection for radar avoidance
Dynamic Host Configuration Protocol
Differentiated Services
Equivalent Isotropically Radiated Power
European Telecommunications Standards Institute
Frequency Shift Keying
Global Positioning System
Note: CMM uses GPS to synchronize APs & BHs
Management Information Base for SNMP
Network Address Translation
Orthogonal Frequency Division Multiplexing
Point-to-Multi-Point (AP to SMs)
Point-to-Point (Backhauls)
Quadrature Amplitude Modulation
Quadrature Phase Shift Keying
Radio Frequency
Subscriber Module
Virtual Local Area Network
Issue 4 0 – DRAFT 6 November 2009
Page 9 of 64
PMP 400/430 and PTP 200 Series
Supplement
1.3
Canopy User Guide
FEEDBACK ON DOCUMENTATION
Is this document accurate, complete, and clear? How can it be improved? Please send your
feedback on Canopy documentation to technical-documentation@canopywireless.com.
1.4
TECHNICAL SUPPORT
Tip! Do not clear the Event Log after you encounter issues. It may be useful to
Technical Support, if you need to escalate the issue.
Here is the escalation path for resolution of a problem:
1. Check documentation:
 this document
 Canopy System Release 8 Users Guide, available at
http://motorola.wirelessbroadbandsupport.com/software.
2. Consider checking the Community Forum and Knowledge Base at
http://motorola.wirelessbroadbandsupport.com/support/community.
3. Escalate the problem to your Canopy supplier or reseller.
4. Escalate the problem to Canopy Technical Support or other designated Tier 3
technical support:
U.S. and Canada
Email: technical-support@canopywireless.com
1-866-961-9288
Latin and Central America
Email: technical-support@canopywireless.com
Argentina
0800-666-2789
Brazil
0800-891-4360
Columbia
01-800-912-0557
Mexico
001-800-942-7721
Peru
0800-70-086
All other countries +420 533 336 946
Europe, Middle East,
and Africa
Email: essc@motorola.com
Denmark
043682114
France
0157323434
Germany
06950070204
Italy
0291483230
Lithuania
880 030 828
Netherlands
0202061404
Norway
24159815
Portugal
0217616160
Spain
0912754787
Russia
810 800 228 41044
Saudi Arabia
800 844 5345
South Africa
0800981900
United Kingdom
0203 0277499
Asia Pacific
Email: WiBBsupport.apac@motorola.com
+6048503854 (9am - 5pm Malaysia Time)
+420 533 336 946 (outside hours)
When you send e-mail or call, please include, as appropriate, software release on each module,
IP addresses, MAC addresses, and features enabled, like NAT, VLAN, high priority channel, or
CIR. You may be asked to run the Support Tool on CNUT or Prizm to provide a complete network
picture.
Issue 4 0 – DRAFT 6 November 2009
Page 10 of 64
PMP 400/430 and PTP 200 Series
Supplement
Canopy User Guide
2 Product Description
PMP 400/430 Series networks and PTP 200 Series bridges add OFDM-based (Orthogonal
Frequency Division Multiplexing) products to the Canopy family.
•
PMP 430 SMs as shown in Figure 4 on page 7 use the Canopy SM form factor with
an integrated antenna.
•
PMP 400 SMs as shown in Figure 5 on page 7 are available with either an integrated
antenna or an external N-type connector on a short length of coaxial cable for
connecting to a connectorized antenna.
•
PMP 400/430 APs as shown on page 7 are always connectorized, and sold either as
a radio with a connectorized antenna as a kit, or as a radio with an external N-type
connector on a short length of coaxial cable for connecting to an operator-provided
antenna. U.S. customers must use the kit version since the FCC requires the radio to
be regulatory certified with the connectorized antenna.
•
PTP 200 BHs as shown in Figure 7 and Figure 8 on page 7 are available with either
an integrated antenna or an external N-type connector on a short length of coaxial
cable for connecting to a connectorized antenna.
PMP 400/430 Series networks are available in multiple bands:
•
PMP 58430 APs and SM provide connectivity in the unlicensed 5.8 GHz band.
•
PMP 54400 APs and SMs provide connectivity in the unlicensed 5.4 GHz band.
•
PMP 49400 APs and SMs provide connectivity in the licensed 4.9 GHz band
allocated to public safety services. State and local governmental entities are eligible
to hold 4.9 GHz licenses.
PTP 200 Series networks are available in multiple bands:
•
PTP 54200 BHs provide connectivity in the unlicensed 5.4 GHz band.
•
PTP 49200 BHs provide connectivity in the licensed 4.9 GHz band allocated to public
safety services. State and local governmental entities are eligible to hold 4.9 GHz
licenses.
Table 1 shows the Motorola PMP 400/430 Series and PTP 200 Series products available.
Table 1: Motorola PMP 400/430 and PTP 200 Series
Frequency
PMP
(Point-to-MultiPoint)
PTP
(Point-To-Point)
Software Version
PMP 430 Series 58430
N/A
Release 10*
5.4 GHz
PMP 400 Series 54400
PTP 200 Series 54200
Release 9.5
4.9 GHz
PMP 400 Series 49400
PTP 200 Series 49200
Release 9.5
5.8 GHz
* Release 10 supports PMP 430 APs and SMs and has one additional GUI feature called
Cyclic Prefix which is found in the AP and SM Configuration => Radio menu.
Issue 4 0 – DRAFT 6 November 2009
Page 11 of 64
PMP 400/430 and PTP 200 Series
Supplement
Canopy User Guide
Table 2 shows the Motorola PMP 430 Series (5.8 GHz OFDM) models available.
Table 2: 5.8GHz OFDM - PMP 430 Series Model Number Descriptions
CSM 58430
Model
Number
5.8GHz OFDM Subscriber
Module (SM) Description
DES
or
AES
5790SM4
5.8 GHz OFDM SM – 4 Mbps
DES
2.6.2
5791SM4
5.8 GHz OFDM SM – 4 Mbps
AES
2.6.2
5790SM10
5.8 GHz OFDM SM – 10 Mbps
DES
2.6.2
5791SM10
5.8 GHz OFDM SM – 10 Mbps
AES
2.6.2
5790SM20
5.8 GHz OFDM SM – 20 Mbps
DES
2.6.2
5791SM20
5.8 GHz OFDM SM – 20 Mbps
AES
Picture
Power 29.5 VDC
Supply Type
Specs
in
Section
2.6.2
Refer to Table 6
for Models
5790SM40
5.8 GHz OFDM SM – 40 Mbps
DES
5791SM40
5.8 GHz OFDM SM – 40 Mbps
AES
CAP 58430
Model
Number
5.8GHz OFDM Access Point
(AP) Description
DES
or
AES
5780AP
5.8 GHz OFDM Connectorized
AP w/antenna
DES
Requires CMM4
w/56 VDC supply
2.6.6
5780APUS
5.8 GHz OFDM Connectorized
AP w/antenna - US Model
DES
Requires CMM4
w/56 VDC supply
2.6.6
5781AP
5.8 GHz OFDM Connectorized
AP w/antenna
AES
Requires CMM4
w/56 VDC supply
2.6.6
5781APUS
5.8 GHz OFDM Connectorized
AP w/antenna - US Model
AES
Requires CMM4
w/56 VDC supply
2.6.6
5780APC
5.8 GHz OFDM Connectorized
AP – No antenna
DES
Requires CMM4
w/56 VDC supply
2.6.5
5781APC
5.8 GHz OFDM Connectorized
AP - No antenna
AES
Requires CMM4
w/56 VDC supply
2.6.5
Issue 4 0 – DRAFT 6 November 2009
2.6.2
2.6.2
Picture
CMM Type
Specs
in
Section
Page 12 of 64
PMP 400/430 and PTP 200 Series
Supplement
Canopy User Guide
Table 3 shows the Motorola PMP 400 and PTP 200 Series (5.4 GHz OFDM) models available.
Table 3: 5.4GHz OFDM - PMP 400 and PTP 200 Model Number Descriptions
CSM 54400
Model
Number
5.4 GHz OFDM Subscriber
Module (SM) Description
DES
or
AES
5440SM
5.4 GHz OFDM SM
DES
2.6.4
5441SM
5.4 GHz OFDM SM
AES
2.6.4
5440SMC
5.4 GHz OFDM Connectorized SM
DES
2.6.5
5441SMC
5.4 GHz OFDM Connectorized SM
AES
CAP 54400
Model
Number
5.4 GHz OFDM Access Point (AP)
Description
DES
or
AES
5440AP
5.4 GHz OFDM Connectorized AP
w/antenna
DES
CMMmicro or CMM4
2.6.6
5440APUS
5.4 GHz OFDM Connectorized AP
w/antenna - US Model
DES
CMMmicro or CMM4
2.6.6
5441AP
5.4 GHz OFDM Connectorized AP
w/antenna
AES
CMMmicro or CMM4
2.6.6
5441APUS
5.4 GHz OFDM Connectorized AP
w/antenna - US Model
AES
CMMmicro or CMM4
2.6.6
5440APC
5.4 GHz OFDM Connectorized AP
– No Antenna
DES
CMMmicro or CMM4
2.6.5
5441APC
5.4 GHz OFDM Connectorized AP
– No Antenna
AES
CMMmicro or CMM4
2.6.5
PTP 54200
Model
Number
5.4 GHz OFDM Backhaul (BH)
Description
DES
or
AES
5440BH
5.4 GHz OFDM BH
DES
CMMmicro or CMM4
2.6.4
5440BHUS
5.4 GHz OFDM BH – US Model
DES
CMMmicro or CMM4
2.6.4
5441BH
5.4 GHz OFDM BH
AES
CMMmicro or CMM4
2.6.4
5441BHUS
5.4 GHz OFDM BH – US Model
AES
CMMmicro or CMM4
2.6.4
5440BHC
5.4 GHz OFDM Connectorized BH
DES
CMMmicro or CMM4
2.6.5
5440BHCUS
5.4 GHz OFDM Connectorized BH
– US Model
DES
5441BHC
5.4 GHz OFDM Connectorized BH
AES
CMMmicro or CMM4
2.6.5
5441BHCUS
5.4 GHz OFDM Connectorized BH
– US Model
AES
CMMmicro or CMM4
2.6.5
Issue 4 0 – DRAFT 6 November 2009
Picture
Power 29.5 VDC
Supply Type
Refer to Table 6
for Models
Picture
Picture
CMM Type
CMM Type
CMMmicro or CMM4
Specs
in
Section
2.6.5
Specs
in
Section
Specs
in
Section
2.6.5
Page 13 of 64
PMP 400/430 and PTP 200 Series
Supplement
Canopy User Guide
Table 4 shows the Motorola PMP 400 and PTP 200 Series (4.9 GHz OFDM) models available.
Table 4: 4.9GHz OFDM - PMP 400 and PTP 200 Model Number Descriptions
CSM 49400
Model
Number
4.9 GHz OFDM Subscriber
Module (SM) Description
DES
or
AES
4940SM
4.9 GHz OFDM SM
DES
2.6.4
4941SM
4.9 GHz OFDM SM
AES
2.6.4
4940SMC
4.9 GHz OFDM Connectorized SM
DES
2.6.5
4941SMC
4.9 GHz OFDM Connectorized SM
AES
CAP 49400
Model
Number
4.9 GHz OFDM Access Point (AP)
Module Description
DES
or
AES
4940AP
4.9 GHz OFDM Connectorized AP
w/antenna
DES
Requires CMM4
w/56 VDC supply
2.6.6
4941AP
4.9 GHz OFDM Connectorized AP
w/antenna
AES
Requires CMM4
w/56 VDC supply
2.6.6
4940APC
4.9 GHz OFDM Connectorized AP
– No antenna
DES
Requires CMM4
w/56 VDC supply
2.6.5
4941APC
4.9 GHz OFDM Connectorized AP
– No antenna
AES
Requires CMM4
w/56 VDC supply
2.6.5
PTP 49200
Model
Number
4.9 GHz OFDM Backhaul (BH)
Description
DES
or
AES
4940BH
4.9 GHz OFDM BH
DES
Wall type 56VDC
supply or CMM4
w/56 VDC supply
2.6.4
4941BH
4.9 GHz OFDM BH
AES
Wall type 56VDC
supply or CMM4
w/56 VDC supply
2.6.4
4940BHC
4.9 GHz OFDM Connectorized BH
– No antenna
DES
Wall type 56VDC
supply or CMM4
w/56 VDC supply
2.6.5
4941BHC
4.9 GHz OFDM Connectorized BH
– No antenna
AES
Wall type 56VDC
supply or CMM4
w/56 VDC supply
2.6.5
Issue 4 0 – DRAFT 6 November 2009
Picture
Power 56 VDC
Supply Type
Refer to Table 6
for Models
Picture
Picture
Power 56 VDC
CMM Type
Power 56 VDC
CMM Type
Specs
in
Section
2.6.5
Specs
in
Section
Specs
in
Section
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A Cluster Management Module (CMM4) provides GPS synchronization and power to the PMP
400/430 and PTP 200 series of products: Table 5 details the power requirements of the APs and
BHs.
Table 5: CMM4 56VDC and 30 VDC Operation
Frequency
PMP 400/430
Access Point (AP)
PTP 200
Backhaul (BH)
Canopy Custom
Power over Ethernet (PoE)
PMP 430 Series –
CAP 58430
N/A
56 VDC - Power on pins 5 & 8,
return on pins 4 & 7
5.4 GHz
PMP 400 Series –
CAP 54400
PTP 200 Series –
PTP 54200
30 VDC - power on pins 7 and 8
and return on pins 4 and 5
4.9 GHz
PMP 400 Series –
CAP 49400
PTP 200 Series –
PTP 49200
56 VDC - Power on pins 5 & 8,
return on pins 4 & 7
5.8 GHz
The CMM4 can be configured with either or both a 56VDC and a 30VDC external power supply
as shown in Figure 9 and Figure 10. The CMM4 must be used for 56 VDC operations which are
required for the PMP 430 5.8-GHz AP, PMP 400 4.9-GHz AP and PTP 200 4.9-GHz BH. The
CMMmicro only supports 30 VDC operations.
Figure 9: CMM4 56 VDC Power Supply
Figure 10: CMMmicro and CMM4
30 VDC Power Supply
Shown in Figure 11 is a CMM4 with labels for the various parts. When using both a 56 VDC and
30 VDC power supply, it is necessary to install a resistor in the 30 VDC terminal block. Refer to
instructions included with the CMM4.
For details on configuring the CMM4, refer to the CMM4 User Guide which is available from the
Motorola support web site. http://motorola.wirelessbroadbandsupport.com/software/
Figure 11: CMM4 - 56 VDC and 30 VDC terminal blocks
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A Cluster Management Module (CMMmicro) provides GPS synchronization and 30 VDC power to
the:
•
5.4-GHz PMP 400 Series - CAP 54400 uses 30 VDC
•
5.4-GHz PTP 200 Series - PTP 54200 uses 30 VDC
A 600SSC or 600SSD surge suppressor provides over-voltage and over-current protection to
APs, SMs, and BHs in various configurations. The diagram in Figure 12 illustrates the use of the
600SS surge suppressor with the PMP 400/430 AP and SM.
Figure 12: 600SS Surge Suppression AP and SM diagram
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Table 6 lists various ancillary equipment and model numbers.
Table 6: Ancillary Equipment and Model Numbers
Name
Model or Part Number
Typically use with
C C C C P
A S A S T
P M P M P
C C P
A S T
P M P
Cluster Management Module micro
(CMMmicro – 30 VDC power supply)
• Controller and 8-port embedded switch
• Outdoor enclosure for controller and
switch (but not power supply)
• 30 VDC power supply included with two
models (with 10 ft (3m) DC cable)
1070CK (with N. American AC cord
for power supply)
1070CK-02 (no AC cord)
1070CK-03 (no power supply)
ACPS112WA (with N. American AC
cord for power supply)
APCS112W-02A (no AC cord)
• GPS antenna and mounting bracket
CMM4 30 VDC power supply
(w 10 ft (3 m) DC cable) or CMMmicro (spare)
5.8 & 5.4 GHz SM 29.5 VDC power supply
(also for isolated 5.4GHz AP or BH)
• Includes 6 ft (2m) DC cord
• No AC cord needed (plugs directly
into AC receptacle)
ACPSSW-09B (US, UK, Euro clips)
ACPSSW-13B (N. America)
ACPSSW-10C (Argentina)
ACPWWS-11C (China)
ACPSSW-12A (Australia)
Cluster Management Module 4 (CMM4)
• Controller and 14-port EtherWAN switch
(old version had 9-port EtherWAN switch)
• Outdoor enclosure for controller and
switch (but not power supply)
1090CK
Power supply is not included – Order
56 VDC and/or 30 VDC power supply
SGPN4076
• No power supply
• GPS antenna and mounting bracket
56 VDC power supply for CMM4
• Does not include DC cable or AC line
cord – Procure locally
4.9GHz SM 56 VDC power supply (also for
isolated 5.8 and 4.9 GHz AP or BH)
• Includes 6 ft (2m) DC cord
• Requires country-specific AC cord
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SGPN4063A
Power cord is not included - Order
country specific AC cord
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Name
Canopy User Guide
Model or Part Number
Typically use with
C C C C P
A S A S T
P M P M P
C C P
A S T
P M P
4.9 GHz SM 56 VDC power supply AC cords
(also for isolated 5.8 and 4.9 GHz AP or BH)
SGKN4427A (US/Canada/Mexico)
SGKN4426A (Europe)
SGKN4425A (Australia)
SGKN4424A (China-Mainland)
SGKN4423A (Japan)
SGKN4422A (Korea)
SGKN4421A (United
Kingdom/Singapore)
SGKN4420A (India/Pakistan/South
Africa)
SGKN4419A (Argentina)
Surge suppressor (AP, SM, BH)
600SSC or 600SSD
Surge suppressor pole-mount kit
Refer to Figure 15 on page 21
SGHN5169A
Radio mounting bracket
SMMB2A
2.1
TECHNOLOGY AND BENEFITS
The OFDM radios feature lower receive sensitivity, FEC (Forward Error Correction), and higher
antenna gain, all of which combine to provide longer range within regulatory-specified EIRP
(Equivalent Isotropic Radiated Power).
Details on performance are listed in Table 7 on page 26.
The PMP 400/430 and PTP 200 Series radios use an OFDM physical layer with 10 MHz channels
and 256 sub-carriers. Due to the different carrier and modulation schemes between these OFDM
radios and FSK Canopy radios, the two do not interoperate over the air. For example, a 5.4-GHz
OFDM SM cannot connect to a 5.4-GHz FSK AP.
nLOS Benefits and Limitations
In addition to providing LOS (Line-of-Sight) connectivity, use of OFDM technology can provide
nLOS (near Line-of-Sight) connectivity and sometimes NLOS (Non-Line-of-Sight) connectivity:
•
LOS: the installer can see the AP from the SM and the first Fresnel zone is clear.
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The radio automatically selects QPSK (Quadrature Phase Shift Keying), 16-QAM (Quadrature
Amplitude Modulation), or 64-QAM based on RF environment to provide 1X, 2X, and 3X
operation, respectively. This provides 3 speeds and a throughput of over 20 Mbps aggregate
(sum of up plus down) compared to FSK Canopy products with 2 speeds and a throughput of up
to 14 Mbps.
2.1.1
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•
nLOS: the installer can see the AP from the SM, but a portion of the first Fresnel
zone is blocked.
•
NLOS: the installer cannot see the AP from the SM and a portion or even much of the
first Fresnel zone is blocked, but subsequent Fresnel zones are open.
Figure 13 shows examples of LOS, nLOS, and NLOS links.
Figure 13: LOS, nLOS, and NLOS
Whereas multi-pathing degrades a link in some technologies (FSK, for example), OFDM can
often use multi-pathing to an advantage to overcome nLOS, especially in cases where the
Fresnel zone is only partially blocked by buildings, “urban canyons”, or foliage. OFDM tends to
help especially when obstacles are near the middle of the link, and less so when the obstacles
are very near the SM, AP, or BH.
However, attenuation through walls and trees is substantial for any use of the 5.8 GHz, 5.4 GHz
or 4.9 GHz frequency bands. Even with OFDM, these products should not be expected to
penetrate walls or extensive trees and foliage.
2.2
APPLICATIONS
Applications for the PMP 58430/54400 and PTP 54200 Series systems include
•
High throughput enterprise applications
•
nLOS video surveillance in metro areas
•
Extend networks into urban areas
•
Extend networks into areas with foliage
Applications for the PMP 49400 and PTP 49200 Series systems include
•
High throughput licensed network for government applications
•
Municipal network - nLOS video surveillance in metro areas
•
Disaster relief network
•
Data service network - extend licensed networks into areas with foliage
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2.3
Canopy User Guide
CONFIGURATION OPTIONS – RF, IP, DFS
These systems use the Canopy Media Access Controller (MAC) layer. Settings like Downlink
Data %, Range, and Control Slots are similar to Canopy FSK radios. An AP can communicate to
over 200 SMs, similar to a Canopy FSK AP.
The GUI (Graphical User Interface) is almost identical to Canopy’s, with a few additions to
support OFDM-specific features.
Network features like High Priority using DiffServ, MIR, CIR, NAT, DHCP and VLAN are available
for the PMP 400/430 and PTP 200 Series OFDM radios, and are configured in the same way as
they are for the PMP 100 Series and PTP 100 Series radios.
In the 5.8 and 5.4-GHz band, DFS (Dynamic Frequency Selection) is provided for regulatory
compliant operation, and is activated (if required per regulatory rules) using the “Region Code”
feature. Two alternate frequencies can be configured to provide service in the unlikely case a
module detects radar and triggers DFS, the same as standard Canopy. “External Antenna Gain”
may need to be configured consistent with any antennas used, to avoid making the system overly
sensitive to radar detection. “Whitening,” a technique used to avoid self-interference on Canopy
FSK radios, is not offered as an option on the PMP 400/430 and PTP 200 Series radios, as
whitening is not a technology applicable to an OFDM signal.
2.4
POWER AND GROUNDING
PMP 58430 APs use a nominal 56 VDC power system with power on pins 5 and 8 and return on
pins 4 and 7. PMP 58430 APs must use a CMM4 with a 56 VDC power supply. A CMMmicro will
not power these units as it is providing the wrong voltage on the wrong pins. PMP 58430 SMs
use a 29.5 VDC wall mount power supply.
PMP 54400 APs and SMs and PTP 54200 BHs use a nominal 30 VDC power system with power
on pins 7 and 8 and return on pins 4 and 5. PMP 54400 APs and PTP 54200 BHs can be
powered from either a CMMmicro with a 30 VDC power supply or a CMM4 with a 30 VDC power
supply. A 29.5 VDC wall mount power supply is available for PMP 54400 SMs.
PMP 49400 APs and SMs and PTP 49200 BHs use a nominal 56 VDC power system with power
on pins 5 and 8 and return on pins 4 and 7. PMP 49400 APs and PTP 49200 BHs must use a
CMM4 with a 56 VDC power supply. A CMMmicro will not power these units as it is providing the
wrong voltage on the wrong pins. A 56 VDC power supply is available for PMP 49400 SMs.
IMPORTANT!
When working on sites with both power systems, use care not to wrongly
mix power supplies and radios as the two power systems use different
pinouts as well as different voltages.
On sites with a mix of 30 VDC and 56 VDC radios (up to the limit of 8 radios supported by one
CMM4), a CMM4 connected to both a 30 VDC power supply and a 56 VDC power supply can be
used.
Due to the full metallic connection to the tower or support structure through the AP’s antenna or a
connectorized BH’s antenna, grounding the AP or BH and installing a 600SS surge suppressor
within 3 ft (1 m) of the AP or BH is strongly recommended to suppress over voltages and over
currents, such as those caused by near-miss lightning. APs and BHs provide a grounding lug for
grounding to the tower or support structure.
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Figure 14: AP Grounding Lug
A pole mount kit (model no. SGHN5169A) is available for the 600SS. The pole mount kit provides
a grounding point on one of its U-bolts that can be used for terminating ground straps from both
the 600SS and the AP.
Figure 15: 600SS pole mount kit
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2.5
Canopy User Guide
ADMINISTRATION SYSTEMS
Standard Canopy administration systems are used to support the PMP 400/430 and PTP 200
Series products. The administration systems must be at the appropriate release level.
The Prizm element management system is used to manage and monitor Canopy modules and to
update module software. Prizm 3.2 with Patch 3 manages and monitors PMP 400/430 and PTP
200 Series modules. Prizm 3.2 software and documentation is available at
http://motorola.wirelessbroadbandsupport.com/software/.
CNUT 3.20 (Canopy Network Update Tool) is the stand-alone software update tool for PMP
400/430 and PTP 200 Series products for operators not using Prizm. CNUT is available at
http://motorola.wirelessbroadbandsupport.com/software/.
2.6
SPECIFICATIONS
PMP 430 products are sold in the following formats:
•
SM - Radio with integrated antenna
•
AP - Kitted, connectorized radio (antenna included)
•
AP – Connectorized radio (antenna provided by operator)
PMP 400 and PTP 200 products are sold in the following formats:
•
SM/BH - Radio with integrated antenna
•
AP/SM/BH - Connectorized radio (antenna provided by operator)
•
AP - Kitted, connectorized radio (antenna included)
The following sections list specifications for each format.
2.6.1
Radio specifications (common to all formats)
Radio
Type
Frequency
Settable Transmit (Tx)
Output Power Range
Default Tx
Power
AP
5.8 GHz
-30 to +20 dBm
+16 dBm
AP/BH
5.4 GHz
-30 to +10 dBm
+10 dBm
AP/BH
4.9 GHz
-30 to +18 dBm
+18 dBm
5.8 GHz
SM
5.4 GHz
SM Auto TPC*
4.9 GHz
* SMs use Auto TPC (Transmit Power Control), with power set
by the AP to provide power leveling for close-in SMs
•
Under 13 W DC power
•
Environment range of -40°C to +55°C (-40°F to +131°F); 0 to 95% relative humidity,
non-condensing
•
PMP 400/430 and PTP 200 products are available with either DES or AES encryption
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2.6.2
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Specifications for PMP 430 SM radio with integrated antenna
•
Radio with an integrated, internal antenna
•
10 dBi patch antenna - 55° x 55° and 3 dB beam width
•
Optional LENS adds 6 dBi
•
Optional reflector dish adds 15 dBi
•
1 lb, 11.75 x 3.4 x 3.4 in (hwd)
•
.45 kg, 29.9 x 8.6 x 8.6 cm (hwd)
Figure 16: PMP 430 SM
2.6.3
Specifications for PMP 430 SM radio with optional LENS
•
LENS adds 6 dB to 10 dB internal patch antenna which can increase range
•
LENS narrows beam width by 3x (from 55° to 18° with LENS) which can reduce
interference caused by multi-path reflections
•
LENS mounts directly to PMP 430 SM – No additional mounting hardware required
•
LENS specs: 7” H x 7” W / 17.8 D cm x 17.8 cm W – 1.75 lbs. / .8 kg
•
LENS part number: AN500A
Figure 17: PMP 430 SM with Optional LENS
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Canopy User Guide
Specifications for PMP 400 and PTP 200 radio with integrated antenna
•
Radio with an integrated, internal antenna
•
15.5° elevation x 17.5° azimuth -- 3 dB beam
•
17 dBi gain for antenna at 5.4 GHz. 17 dBi antenna gain plus 10 dBm transmit power
gives the regulatory maximum of 27 dBm EIRP.
•
17 dBi gain for antenna at 4.9 GHz. 17 dBi antenna gain plus 18 dBm transmit power
gives 35 dBm EIRP.
•
2.8 lb, 13.25 x 8.25 x 4.38 in (hwd)
•
~1.3 kg, 33.7 x 21 x 11.13 cm (hwd)
Figure 18: PMP 400 and PTP 200 radio with integrated antenna
2.6.5
Specification for PMP 400 and 430 connectorized radio
•
Connectorized radio only (antenna to be provided by operator)
•
N-type connector
•
2.8 lb, 13.25 x 8.25 x 4.38 in (hwd)
•
~1.3 kg, 33.7 x 21 x 11.13 cm (hwd)
Figure 19: PMP 400/430 connectorized radio
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Specifications for PMP 400/430 kitted, connectorized radio (antenna included)
•
Connectorized radio (N-type connector) and connectorized antenna kitted together
•
90° sectors
•
Antenna optimized for system coverage vs. system self-interference for 90° sectors
(3 dB beam pattern of 60° azimuth by 5° elevation, with near-in null fill)
•
5.8 GHz - 18 dBi gain for antenna. 18 dBi antenna gain minus 1 dB cable loss plus
16 dBm transmit power gives the regulatory max 33 dBm EIRP (10 MHz Channel).
•
5.4 GHz - 18 dBi gain for antenna. 18 dBi antenna gain minus 1 dB cable loss plus
10 dBm transmit power gives the regulatory max 27 dBm EIRP.
•
4.9 GHz - 17 dBi gain for antenna. 17 dBi antenna gain plus 18 dBm transmit power
gives 35 dBm EIRP.
•
13 lb, 28 x 8.25 x 11 in (hwd)
•
~6 kg, 71 x 21 x 28 cm (hwd)
Figure 20: CAP 49400
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Figure 21: CAP 58430 and CAP 54400
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Canopy User Guide
PERFORMANCE
Table 7 shows performance details for PMP 400/430 and PTP 200 series.
Table 7: Performance Details
Product
Channel
Width
Performance Details
Parameter
1X
Modulation
PMP 58430
(5.8 GHz OFDM)
10 MHz
QPSK
2 mi/3.2 km
Typical Maximum Aggregate
(up+down) Throughput
7 Mbps
14 Mbps
20 Mbps
Nominal Receive Sensitivity
(including FEC)
-89 dBm
-78 dBm
-70 dBm
5-7 msec
QPSK
16 QAM
64 QAM
Typical Maximum Range
5 mi/8 km
2.5 mi/4 km
1.25 mi/2 km
Typical Maximum Aggregate
(up+down) Throughput
7 Mbps
14 Mbps
PMP: 20 Mbps
PTP: 21 Mbps
Nominal Receive Sensitivity
(including FEC)
-89 dBm
-78 dBm
-70 dBm
Modulation
10 MHz
64 QAM
3 mi/ 4.8km
Latency
PMP 49400
PTP 49200
(4.9 GHz OFDM)
16 QAM
7 mi/ 11.2km
Modulation
10 MHz
3X
Typical Maximum Range
Latency
PMP 54400
PTP 54200
(5.4 GHz OFDM)
2X
5-7 msec
QPSK
16 QAM
64 QAM
Typical Maximum Range
15 mi/24 km
4 mi/6.5 km
2 mi/3.2 km
Typical Maximum Aggregate
(up+down) Throughput
7 Mbps
14 Mbps
20 Mbps
Nominal Receive Sensitivity
(including FEC)
-89 dBm
-80 dBm
-71 dBm
Latency
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5-7 msec
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3 Planning
PMP 400/430 and PTP 200 Series systems use a 10 MHz channel size configurable on 5 MHz
centers. This channel size, along with some different characteristics due to the use OFDM carrier
technology and QPSK, 16 QAM, or 64 QAM modulations, supports somewhat different channel
planning than for standard Canopy. (For reference, PMP 100/200 Series uses 20 MHz channels
configurable on 5 MHz centers, single carrier technology, and 2-level and 4-level FSK
modulation.)
3.1
TOWER CHANNEL PLANNING
For a single cluster of 4 APs on a tower, 2-channel re-use with channels on 10 MHz channel
center spacing gives good performance. In channel design parlance, this can be stated as ABAB
channel planning, with no guard band needed between A and B. A typical arrangement might be
to use radios configured for 5480 MHz aimed north and south, and radios configured for 5490
MHz aimed east and west.
(For reference, standard Canopy uses 2-channel re-use with clusters of 6 APs on a tower with
channel center spacing of either 25 MHz for Advantage APs or 20 MHz for non-Advantage APs.
This is ABCABC channel planning, with 5 MHz guard band between the 20 MHz channels for
Advantage APs and no guard band needed for non-Advantage.)
Available 5.8 GHz channel center frequencies for each region are shown in Table 8. These vary
by region due to different band edge RF specifications (for example, between Canada/US and
Europe).
Table 8: 5.8 GHz Channel Center Frequencies, by Region
Range of Center Frequencies
Available (MHz)
(on 5 MHz centers within this
range, inclusive)
Maximum number of
non-overlapping
channels
US
5730 - 5845
12
Canada
5730 - 5845
12
Europe
5730 - 5870
15
US FSK (for comparison)
5735 - 5840
Region
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Available 5.4 GHz channel center frequencies for each region are shown in Table 9. These vary
by region due to
•
different band edge RF specifications (for example, between Canada/US and
Europe)
•
requirements in US, Canada, Europe and Australia to not impinge on the frequencies
between 5600 and 5650 MHz, which are frequencies on which some weather radar
operate
Table 9: 5.4 GHz Channel Center Frequencies, by Region
Range of Center Frequencies
Available (MHz)
(on 5 MHz centers within this
range, inclusive)
Maximum number of
non-overlapping
channels
US
5480 - 5710
24
Canada
5480 – 5595, 5655 - 5710
18
Europe
5475 - 5595, 5655 - 5715
20
US FSK (for comparison)
5495 - 5705
11
Canada FSK (for
comparison)
5495 - 5575, 5675 - 5705
Region
Available 4.9 GHz channel center frequencies are shown in Table 10.
Table 10: 4.9 GHz Channel Center Frequencies
Range of Center Frequencies
Available (MHz)
(on 5 MHz centers within this
range, inclusive)
Maximum number of
non-overlapping
channels
4945 - 4985
The best practice for channel planning for APs is to conduct extensive site RF surveys before
choosing channels. The SM provides a basic Spectrum Analyzer that can be used for site
surveys. For more sophisticated analysis, consider consulting an experienced RF engineer and
using a full-featured spectrum analyzer.
3.2
DOWN TILT
The standard AP antenna produces a 3 db beam elevation (up and down) of 5°, with near-in null
fill that allows good coverage of close-in SMs that otherwise would be affected by the narrow
pattern. This is a narrower pattern than operators may be used to with standard Canopy’s 60° 3
dB beam, and may require down tilt on the antenna. The bracket of the standard antenna has
provision for measured down tilt. The recommended practice is to use one of the many radio
analysis and mapping tools or on-line tools to calculate down tilt based on antenna height above
the service area.
3.3
WEATHER RADAR
Spectrum between 5600 and 5650 MHz (sometimes called the “weather notch”) is used by some
weather radar and is not allowed for use by regulations in some regions, including US, Canada
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and, for new equipment, Europe. When the Canopy module is set to either of those regions
(configured on the Configuration => General page of the module), it will not allow configuration of
the appropriate frequencies, as shown in Table 9. Even in regions where use of the spectrum
between 5600 and 5650 MHz is allowed, the best practice is to not use these channels if there
are any other usable channels available. Only use the channels in this “weather notch” after
monitoring the spectrum for a week or more using a spectrum analyzer to ascertain the spectrum
is clear and there is no weather radar in the area that will cause interference to your Canopy
system.
3.4
RANGE AND THROUGHPUT PLANNING
PMP 400/430 and PTP 200 Series modules provide up to 21 Mbps aggregate throughput at
distances of 1.25 mi (~1 km) (1.7 mi for 4.9 GHz systems) in RF environments with clear line-ofsight and low background interference levels. Additional performance details are shown in Table
7 on page 26. RF environments with occluded Fresnel zones or higher background interference
levels may give lower, but still very good, performance, depending on the specifics of the
environment.
Similar to standard Canopy, at any given instant, any radios operating at 1X or 2X take more “air
time” to transmit a given amount of data than if they were running at 3X. Similar to standard
Canopy, PMP 400/430 and PTP 200 Series modules may see reduced total throughput when
handling traffic with a high percentage of small packets.
The effect of this, again similar to standard Canopy, is that at any given instant total throughput
depends on
3.5
•
Mix of links running at 3X, 2X, and 1X
•
Mix of packet sizes
SPECTRUM ANALYZER
A spectrum analyzer is available on the SM’s Tools => Spectrum Analyzer page. The spectrum
analyzer is also available on an AP by temporarily converting it to an SM by setting the Device
Type to SM on the AP’s Configuration => General page. The spectrum analyzer works like the
spectrum analyzer in classic FSK SMs.
Spectrum analyzer uses include
•
Showing relative power levels across the band, to aid in selecting channels and
performing RF planning.
•
Troubleshooting to finding the frequency, relative power level, and location of
interferers by rotating a single SM, or triangulating from multiple SMs in a
geographical area.
The OFDM spectrum analyzer, the FSK spectrum analyzer, and the FSK Receive Power Level
are all measuring and displaying peak power levels. The OFDM Receive Power Level is
measuring and displaying the average power level.
Due to this difference, the reported Receive Power Level on an OFDM SM can be 10 to 15 dB
lower than the value shown for that channel on the spectrum analyzer. For example, when
measuring power from an OFDM AP transmitting on a given channel the OFDM SM might show a
Receive Power Level of -70 dBm while the OFDM spectrum analyzer shows a power level of -54
for that channel.
In addition, an OFDM SM measures power across 10-MHz channels while an FSK SM measures
power across 20-MHz channels, so power measurements are not directly comparable between
the two.
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The built-in spectrum analyzer can be very useful as a tool for troubleshooting and RF planning,
but doesn’t duplicate the accuracy and programmability of a dedicated, high-end spectrum
analyzer, which may be needed in some cases.
3.6
COLLOCATION OF 5.8 GHZ OFDM WITH STANDARD 5.7 GHZ
CANOPY FSK
When locating 5.8 GHz PMP 430 OFDM APs near 5.7 GHz standard Canopy FSK APs
(especially on the same tower, but also in the same geographical area), the following practices
should be followed to avoid interference between the two systems:
•
Plan spacing between OFDM and FSK channels to provide 25 MHz center spacing,
which gives a 10 MHz guard band between the 10 MHz OFDM channel and the 20
MHz FSK channel.
•
Coordinate Downlink Data %, Range, and Control Slot settings using both the
OFDM and the FSK frame calculators
The following paragraphs give more details on these recommended practices.
3.6.1
Channel Spacing
Center spacing of 25 MHz between collocated FSK and OFDM APs provides a 10 MHz guard
band between the 20 MHz and 10 MHz channels, which has proven useful and needed in field
testing. Alternatively, in cases where channel planning is severely restricted and the 10 MHz
guard band (25 MHz spacing) is not possible, using vertical separation of 5 feet or more between
the OFDM and FSK APs may allow collocation with no guard band (15 MHz spacing) in some
deployments.
3.6.2
Frame Calculations and Configuration Settings
Interference between collocated Canopy systems can be avoided by following two practices:
1. Use a CMM. This synchronizes frame start, so that all collocated APs begin
transmitting at the same time each 2.5 millisecond frame.
2. Use the frame calculators in each module, OFDM and FSK (the frame calculators are
different, as frame details are different) to select Downlink Data %, Range, and
Control Slots for each system that produce “Rec SEQ Start” values that are within
300 bit times. This ensures that all collocated APs end transmission each frame
before any collocated AP begins to receive.
When collocating only Canopy OFDM APs together, or collocating only Canopy hardwarescheduled FSK APs together, the simple practice of setting the Downlink Data %, Range, and
Control Slots the same on all APs ensures they won’t interfere with each other. (These
parameters are set on the “Configuration => Radio” page of the AP.) However, due to the
different “physical” layer between Canopy OFDM and Canopy FSK, this doesn’t necessarily work
when collocating OFDM and FSK together.
You will need to use frame calculators on both the OFDM and FSK modules, as they are different
frame calculators. For the same Downlink Data %, Range, and Control Slots, the frame
calculators give different results. Use of the frame calculators is similar to the previous use when
collocating software-scheduled and hardware-scheduled APs.
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3.7
COLLOCATION OF 5.4 GHZ OFDM WITH STANDARD 5.4 GHZ
CANOPY FSK
When locating 5.4 GHz PMP 400 and PTP 200 Series OFDM APs near 5.4 GHz standard
Canopy FSK APs (especially on the same tower, but also in the same geographical area), the
following practices should be followed to avoid interference between the two systems:
•
Plan spacing between OFDM and FSK channels to provide 25 MHz center spacing,
which gives a 10 MHz guard band between the 10 MHz OFDM channel and the 20
MHz FSK channel.
•
Coordinate Downlink Data %, Range, and Control Slot settings using both the
OFDM and the FSK frame calculators
The following paragraphs give more details on these recommended practices.
3.7.1
Channel Spacing
Center spacing of 25 MHz between collocated FSK and OFDM APs provides a 10 MHz guard
band between the 20 MHz and 10 MHz channels, which has proven useful and needed in field
testing. Alternatively, in cases where channel planning is severely restricted and the 10 MHz
guard band (25 MHz spacing) is not possible, using vertical separation of 5 feet or more between
the OFDM and FSK APs may allow collocation with no guard band (15 MHz spacing) in some
deployments.
3.7.2
Frame Calculations and Configuration Settings
Interference between collocated Canopy systems can be avoided by following two practices:
3. Use a CMM. This synchronizes frame start, so that all collocated APs begin
transmitting at the same time each 2.5 millisecond frame.
4. Use the frame calculators in each module, OFDM and FSK (the frame calculators are
different, as frame details are different) to select Downlink Data %, Range, and
Control Slots for each system that produce “Rec SEQ Start” values that are within
300 bit times. This ensures that all collocated APs end transmission each frame
before any collocated AP begins to receive.
When collocating only Canopy OFDM APs together, or collocating only Canopy hardwarescheduled FSK APs together, the simple practice of setting the Downlink Data %, Range, and
Control Slots the same on all APs ensures they won’t interfere with each other. (These
parameters are set on the “Configuration => Radio” page of the AP.) However, due to the
different “physical” layer between Canopy OFDM and Canopy FSK, this doesn’t necessarily work
when collocating OFDM and FSK together.
You will need to use frame calculators on both the OFDM and FSK modules, as they are different
frame calculators. For the same Downlink Data %, Range, and Control Slots, the frame
calculators give different results. Use of the frame calculators is similar to the previous use when
collocating software-scheduled and hardware-scheduled APs.
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Procedure 1: Finding collocation values using Frame Calculators
1. Using the “Tools => Frame Calculator” on an OFDM module, enter the desired
Downlink Data %, Range, and Control Slot settings, click Calculate, and observe
the “Rec SEQ Start” value.
2. Using the “Tools => Frame Calculator” on an FSK module, enter the desired
Downlink Data %, Range, and Control Slot settings, click Calculate, and observe
the “Rec SEQ Start” value.
3. Iterate, usually adjusting the FSK Downlink Data % and the OFDM Downlink Data
% values by a few percent each time, until the “Rec SEQ Start” times of all
collocated modules are within 300 bit times of each other.
4. Configure the OFDM modules using the resulting OFDM values, and the FSK
modules using the resulting FSK values.
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4 Configuring
Most PMP 400/430 Series and PTP 200 Series configuration items are identical or very similar to
configuration items in standard FSK Canopy modules. This section discusses those that are new
or changed and also remarks on some that remain unchanged.
4.1
LINK OPERATION – 1X/2X/3X
PMP 400/430 and PTP 200 Series products offer three levels or speeds of operation – 1X, 2X,
and 3X. 3X supports a typical maximum aggregate (sum of up and down) throughput of up to 21
Mbps. If received power is less due to distance between the AP/BHM and the SM/BHS or due to
obstructions, or interference affects the RF environment, the Canopy system will automatically
and dynamically adjust links to the best operation level. Distance, rates and other information
associated with the operation levels are shown in Table 7 on page 26.
The system chooses its operation rate dynamically, based on Canopy’s internal ARQ (Automatic
Repeat reQuest) error control method. With ARQ, every data slot of every frame sent over the air
(except downlink broadcast) is expected to be acknowledged by the receiver, and if
acknowledgement is not received, the data is resent. The sending unit monitors these resends,
and adjusts the operation rate accordingly. A normal system may have links that move from 3X to
2X (or 1X) and back as the RF environment changes. Furthermore, the links operate
independently; normal operation can have a downlink running at 3X while the uplink RF
environment only supports 2X.
The default is for both AP/BHM and SM/BHS to be enabled for 3X operation. An operator may
“lock down” a link to 1X/2X operation or to only 1X operation using the Dynamic Rate Adapt
parameter on the SM’s Configuration => General page as shown in Figure 22. This parameter
locks down both uplink and downlink operation. An operator may lock down an entire sector to 2X
and 1X operation, or to only 1 X operation, using the Dynamic Rate Adapt parameter on the AP’s
Configuration => General page. This parameter locks down uplink and downlink of all links in the
sector, and overrides any SM 1X/2X/3X settings. For example, if an individual link is set for 3X
operation at the SM and the sector is set for 1X operation at the AP, all links in the sector will be
locked down to 1X operation.
Figure 22: Dynamic Rate Adapt on AP "Configuration => General" page
In most cases an operator is well-served to leave the setting at 1X/2X/3X and let the system
automatically and dynamically choose the best rate for each link. Cases when it may be useful to
lock down a link to 1X include
•
If you are having trouble aiming a link or getting it to register, locking the link down to
2X or 1X may help in some cases.
•
If the link is suspected to be oscillating between operation rates to the detriment of
throughput, locking the link down may increase throughput. Usually, even if the link is
moving rapidly between operation rates, overall link throughput and sector capacity
are highest if the link is left at 3X and the link can choose its own rate dynamically.
•
General link troubleshooting
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Optimal sector utilization involves having as many links as possible running at 3X. This provides
as much capacity as possible for the sector. As an example, you want to limit throughput to an
individual subscriber to 1X rates. This does not mean you should set that link to 1X operation.
Use MIR (Maximum Information Rate) settings to cap the SM’s bandwidth use, but let the link run
at as high an operation rate as the RF environment will allow. This ensures that any transmission
uses as little “air time” as possible, leaving more “air time” for other SMs.
4.2
TRANSMITTER OUTPUT POWER (AND NO JITTER)
The AP/BHM’s Transmitter Output Power is configured on the AP/BHM’s “Configuration =>
Radio” page.
Frequency
Transmit Output Power
Range
Factory Default
Setting
PMP 58430
5.8 GHz
-30 dBm to +20 dBm
16 dBm
PMP 54400
PTP 54200
5.4 GHz
PMP 49400
PTP 49200
4.9 GHz
Radio
-30 dBm to +12 dBm
-30 dBm to +18 dBm
10 dBm
18 dBm
In most regulatory regions, including the US, Canada, and Europe, PMP 400/430 and PTP 200
Series modules operating in the 5.8 GHz band are limited to 33 dBm with 10MHz channels and
5.4 GHz band are limited to 27 dBm EIRP (Equivalent Isotropic Radiated Power). This is different
than the 30 dBm EIRP allowed for Canopy FSK modules operating in the 5.4 GHz band because
the regulations are for spectral power density and with half the channel size (10 MHz vs 20 MHz),
PMP 400 and PTP 200 Series radios are allowed half the power (27 dBm vs 30 dBm).
To meet 27 dBm EIRP with the connectorized 18 dBi antenna (with 1 dB of cable loss) that
comes with the 5440AP or 5441AP, or the integrated 17 dBi antenna that comes with a 5440BH
or 5441BH, the maximum setting allowed is 10 dBm (the default) since 27-17=10.
If a connectorized AP or BHM has been purchased and the operator has provided the antenna,
the Transmitter Output Power must be configured based on that antenna and consistent with
local or regional regulations. For example, if a 5440APC is being used with a 15 dBi antenna,
then the maximum setting allowed to meet 27 dBm EIRP is the full 12 dBm of which the radio is
capable.
IMPORTANT!
It is the responsibility of the operator and professional installer to ensure
Transmitter Output Power is set within regulatory limits for their country
or region. These must be set or confirmed on initial configuration and
after a module is reset to factory defaults, and should be confirmed after
the software on a module is upgraded.
In most cases the operator will want to set the AP’s Transmitter Output Power to the maximum
allowed so as to have the greatest overall range and the greatest range for 3X operation. It may
be useful to reduce Transmitter Output Power when Canopy systems are located close together,
with good coverage given because of their proximity and full power isn’t needed, or in cases
where an operator is trying to reduce interference from the Canopy system to other systems.
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Each SM’s Transmitter Output Power is automatically set by the AP. The AP monitors the
received power from each SM, and adjusts each SM’s Transmitter Output Power so that the
received power at the AP from that SM is not greater than -60 dBm. In addition, for 5.4-GHz SMs,
the AP sets the SM’s Transmitter output power so the SM’s EIRP will be within regulatory
requirements.
PMP 400/430 Series networks use Auto-TPC because OFDM technology is more sensitive to
large differences in power levels from SMs operating at various distances from the AP than the
single carrier technology used in Canopy FSK.
PTP 200 Series bridges do not use Auto-TPC – the operator sets Transmitter Output Power on
the “Configuration => Radio” page of both the BHM and the BHS.
PMP 400/430 and PTP 200 Series modules display the typical Canopy “Receive Power Level” as
shown in Figure 23. Due to the different modulation technique no “jitter” is calculated or
displayed.
Figure 23: SM Power Level on AP “Home => Session Status” page.
4.3
DOWNLINK DATA %, RANGE, AND CONTROL SLOTS
The Downlink Data parameter on the AP’s and BHM’s Configuration => General page can be set
in 1% increments between 10% and 90%. The default as shown in Figure 24 is 75%.
The Range parameter on the AP’s Configuration => General page can be set in 1-mile
increments between 1 and 10 miles. The default as shown in Figure 24 is 5 miles. Set the Range
to the distance of the furthest SM from any AP in the area. The Range parameter effectively
determines frame structure of the Canopy over-the-air protocol, especially turn-around guard
time. Setting Range the same across a geographical area give best overall performance.
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Range does not change transmit power levels. Do not set a higher Range than needed. A higher
Range gives no higher power and slightly reduces throughput to allow for higher air delay and
turn-around time.
If the Range is set to greater than 5 miles, the SM limits the Downlink Data to a maximum of
85% to avoid close-in SMs having registration issues. For example, a Range of 6 miles and a
Downlink Data of 90% is not allowed. Operationally,
•
if the Downlink Data % is set to greater than 85% and the user enters a range greater
than 5 miles, the module will reset the Downlink Data % to 85%
•
if the range is set to greater than 5 miles and the user enters a Downlink Data % of
greater than 85%, the module will reset the Downlink Data % to 85%.
Figure 24: Max Range & Downlink Data on AP "Configuration => Radio" page.
Suggested Control Slot settings as a function of number of SMs in the sector are shown in Table
11. Generally all APs in a cluster should use the same number of control slots so as to keep the
frame structures, and thereby the send and receive timing, the same.
Table 11: Control Slot Settings
Number of SMs that
Register to the AP
Suggested Number of
Control Slots
1 to 10
0 or 11
11 to 50
51 to 150
151 to 200
Note 1: Any OFDM sector with the Hi Priority Channel enabled on any SM
should be configured with at least 1 Control Slot on the AP.
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In some cases operators may find that sectors with high levels of small packet requests, such as
might be seen in a sector handling several VoIP streams, benefit overall from slightly higher
Control Slot settings. If different sectors require different numbers of Control Slots, the operator
should use the Frame Calculator to find a combination of settings that put “Rec SEQ Start” times
within 300 bit times. See section 3.7.2 on page 31 for details.
Control Slots are reserved for SMs’ bandwidth requests and never handle data. A higher number
of control slots gives higher probability that an SM’s bandwidth request will be heard when the
system is heavily loaded, but with the tradeoff that sector capacity is reduced by about 100 kbps
for each Control Slot configured, so there will be less capacity to handle the request.
Uplink Data Slots are used first for data. If they are the not needed for data in a given frame the
data slot can be used by the SMs for bandwidth requests. This allows SMs in sectors with zero
control slots configured to still make bandwidth requests using unused data slots.
Downlink Data %, Range, and Control Slots should be set consistent with the results of any
collocation planning done using OFDM and FSK frame calculators in section 3.7.2 on page 31.
The BHM performs its own ranging and so no range need be set for it.
BHMs do not have settings for control slots, as there is no bandwidth request contention on the
one-to-one link.
4.4
DFS AND REGULATORY PARAMETERS FOR 5.8 & 5.4 GHZ RADIOS
Dynamic Frequency Selection (DFS) is a requirement in several countries and regions for 5 GHz
unlicensed systems to detect radar systems and avoid co-channel operation. DFS and other
regulatory requirements drive the settings for the following parameters, as discussed in this
section:
•
Region Code
•
Primary Frequency
•
Alternate 1 and Alternate 2 Frequencies
•
External Antenna Gain
On the AP, the “Home => DFS Status” page shows current DFS status of all three frequencies
and a DFS log of past DFS events. Unlike standard Canopy, the PMP 400/430 and PTP 200
Series AP, SM, and BH do not offer “Whitening”, as the OFDM technology obviates the need for
it.
Figure 25: DFS Status on AP "Home => DFS Status" page.
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4.4.1
Canopy User Guide
Background and Operation
The modules use region-specific DFS based on the “Region Code” selected on the module’s
“Configuration => General” page. By directing installers and technicians to set the Region Code
correctly, the operator gains confidence the module is operating according to national or regional
regulations without having to deal with the details for each region.
Available “Region Codes” include Other, United States, Canada, Europe, Brazil, Russia, and
Australia. Operators in regions or countries not listed and with requirements aligned with one of
the listed countries should set the Region Code to that country. Operators in regions or countries
with no requirements for DFS should use the “Other” Region Code.
New APs and BHMs from the factory will show a Region Code of “None”, and will not transmit
until the Region Code is set to a value other than “None”.
Canada, United States and Europe have requirements to avoid certain frequencies used by some
weather radar. To meet this requirement, modules set to a Region Code of Canada, United
States or Europe will display the center channel frequencies shown in Table 9 on page 28 on the
AP’s and BHM’s Carrier Frequency pop-up and on the SM’s and BHS’s Frequency Scan
Selection List.
Table 12 shows the details of DFS operation and channels available for each Region Code,
including whether DFS is active on the AP/BHM, SM/BHS, which DFS regulation apply, and any
channel restrictions. DFS does not apply to 4.9 GHz.
Table 12: 5.4 / 5.8 GHz DFS Operation based on Region Code
Region Code
Frequency
AP
SM
Center Channel
Frequencies Available2
(MHz)
5.4 GHz
FCC/IC DFS3
No effect
5480 - 5710
5.8 GHz
No effect
No effect
5730 - 5845
United States
5.4 GHz
FCC/IC DFS
No effect
5480 – 5595, 5655 - 5710
5.8 GHz
No effect
No effect
5730 - 5845
5.4 GHz
ETSI DFS4
ETSI DFS
5475 - 5595, 5655 - 5715
5.8 GHz
ETSI DFS5
ETSI DFS
5730 - 5870
5.4 GHz
ETSI DFS
No effect
5475 - 5715
5.8 GHz
No effect
No effect
5730 - 5845
5.4 GHz
FCC/IC DFS
No effect
5480 – 5595, 5655 - 5710
5.8 GHz
No effect
No effect
5730 - 5845
5.4 GHz
NA
NA
5480 - 5710
5.8 GHz
NA
NA
5730 - 5845
5.4 GHz
No effect
No effect
5480 - 5710
5.8 GHz
No effect
No effect
5730 - 5870
Canada
Europe
Brazil
Australia
Russia
Other
1. In all cases set the Region Code to the region you are in and the equipment will
provide DFS consistent with that region’s regulations. For countries or regions
not listed, use a Region Code that provides DFS functionality and channels
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Region Code1
2.
3.
4.
5.
Frequency
Canopy User Guide
AP
SM
Center Channel
Frequencies Available2
(MHz)
consistent with your country’s regulatory requirements.
In some countries and regions, 5600 MHz to 5650 MHz is “notched” out to meet
requirements to not transmit in weather radar frequencies.
FCC/IC indicates compliance with FCC Report and Order 03-287 and Industry
Canada requirements.
ETSI DFS indicates compliance with ETSI EN 301 893 v1.3.1
ETSI DFS indicates compliance with ETSI EN 302 502 v1.2.1 2008
After an AP or BHM with DFS boots it performs a channel availability check on its main carrier
frequency for 1 minute, monitoring for the radar signature without transmitting. If no radar
signature is detected during this minute, the module then proceeds to normal beacon transmit
mode. If it does detect a radar signature, the frequency is marked for a 30 minute non-occupancy
period, and the module moves to its 1st alternate carrier frequency. The AP/BHM continues this
behavior through its 2nd alternate frequency if needed and then waits until the first frequency
ends the 30 minute non-occupancy period. While operating, if the AP/BHM detects a weather
radar signature it marks the current carrier frequency for a 30 minute non-occupancy period and
moves to check the next-in-line carrier frequency.
An SM/BHS does not begin transmission until it detects a beacon from an AP/BHM. If APs/BHMs
are not transmitting, SMs/BHSs will be silent.
The FCC and IC require DFS only on APs/BHMs. Europe applies the ETSI specification to both
APs/BHMs and SMs/BHSs, while Brazil applies it only to AP/BHMs. In the ETSI case, when an
SM/BHS boots, it scans to find a Canopy beacon from a AP/BHM. If an AP/BHM is found, the
SM/BHS performs a channel availability check on that frequency for 1 minute, monitoring for the
radar signature, without transmitting. A DFS decision is made based on the following:
•
If no radar pulse is detected during this 1 minute, the SM/BHS proceeds through
normal steps to register to an AP/BHM.
•
If the SM/BHS does detect radar, it locks out that frequency for 30 minutes and
continues scanning other frequencies in its scan list.
Note, after an SM with DFS has seen a radar signature on a frequency and locked out that
frequency, it may connect to a different AP if color codes, AP transmitting frequencies, and SM
scanned frequencies support that connection.
BHSs would not be expected to connect to a different BHM, as backhaul links should be
configured using color codes and authentication to ensure a BHS only connects with its intended
BHM.
To simplify operation and ensure compliance, an SM/BHS takes on the DFS type of the AP/BHM
to which it registers. For example, when an SM in Europe registers to an AP with the Region
Code set to “Europe”, that SM will use ETSI DFS, no matter what its Region Code is set to, even
if its Region Code is set to “None”. Note, the operator should still configure the Region Code in
the SM correctly, as future releases may use the Region Code for additional region-specific
options.
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For all modules running DFS, the module displays its DFS state on its Home => General Status
page as one of the following:
4.4.2
•
Checking Channel Availability Remaining time n seconds, where n
counts down from 60 to 1.
•
Normal Transmit
•
Radar Detected Stop Transmitting for n minutes, where n counts down
from 30 to 1.
•
Idle, only for SM/BHS, indicates module is scanning, but has not detected a
beacon from an AP/BHM. Once it detects beacon, the SM/BHS begins a Channel
Availability Check on that frequency.
Setting DFS and Regulatory Parameters
Setting the Region Code
All modules display a Region Code pop-up on the Configuration => General page as shown in
Figure 26 on page 41.
On new modules from the factory, or after resetting to factory defaults, the operator should set
this Region Code consistent with their country or region. For countries or regions not listed in the
Region Code pop-up, set the Region Code consistent with your country’s regulatory
requirements. For example, several countries in South America follow the same DFS regulations
as Brazil, so in those countries the Region Code should be set to “Brazil”.
IMPORTANT!
Operators under regulatory requirements for DFS must ensure the new
Canopy parameter “Region Code” is set correctly. This applies to initial
configuration, after a module is reset to factory defaults, or after a
module is upgraded.
An AP or BHM will not transmit if the Region Code is configured to “None”.
IMPORTANT!
On APs or BHMs received from the factory, with Region Code set to
“None”, the operator must set the Region Code before the module will
transmit. The same is true of APs and BHMs which have been reset to
factory defaults.
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Figure 26: Region Code on AP “Configuration => General” page
An SM/BHS has both a configurable Region Code and, once it registers to an AP or BHM, an
active Regional Code. After an SM/BHS registers to an AP/BHM, it uses the region code of the
AP/BHM to determine its DFS behavior and displays the AP/BHM’s region code on its Home =>
General Status page, as shown in Figure 28.
The two Region Codes on an SM/BHS should be the same in normal operation. However, they
will not be the same if, for example, an SM configured with a Region Code of “None” has
registered to an AP with a Region Code of Europe as shown in Figure 27 and Figure 28.
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Figure 27: Configured Region Code on SM Configuration => General page
Figure 28: Active Region Code on SM Home => General Status page
The AP or BHM always operates under its manually configured Region Code (the one on the
Configuration => General page), and so does not show a Region Code on its Home => General
Status page.
Under normal operations, APs and BHMs operating with DFS (see Table 12) will experience an
additional minute after power-up or reboot before they will register any SMs or BHSs. SMs and
BHSs operating with DFS (see Table 12) will experience an additional minute after they reboot
before they will register to an AP or BHM.
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It takes two reboots to set the parameters described below on a module starting from factory
defaults. Set the Region Code as described above, Save Changes, and Reboot. If the module
then invokes DFS (based on the region code and frequency band as shown in Table 12), the
Radio Frequency Carriers and External Antenna Gain parameters will be displayed. Set them
as described below, Save Changes, and Reboot again.
IMPORTANT!
Set the Region Code, Save Changes, and Reboot to see the contextsensitive DFS parameters. Unlike with many context-sensitive
parameters, these do not appear in the GUI with only a Save Changes.
Setting Radio Frequencies
APs and BHMs running DFS include an option for setting up to two alternate frequencies on the
“Configuration => Radio” page, in addition to the primary frequency. These alternate frequencies
are used in the unlikely event radar is detected and the main frequency is locked out due to DFS
detection. If these are left at “None”, no backup frequencies will be used in the case of DFS
detection, and the AP or BHM will lock itself out from any transmission for 30 minutes.
If radar is detected on the main frequency, either at startup or during operation, a Channel
Availability Check will be performed on the 1st alternate frequency before it is then used for
transmission. If radar is detected on the 1st alternate frequency, either during Channel Availability
Check or during operation, a Channel Availability Check will be performed on the 2nd alternate
frequency before it is then used for transmission. If radar is detected on the 2nd alternate
frequency, either during Channel Availability Check or during operation, the radio will cease
transmission unless or until the primary channel clears its 30-minute lock-out.
The alternate frequencies configured in the AP/BHM must be included in the SM/BHS’s
Frequency Scan List, or the SMs/BHS can’t follow their AP/BHM if it switches to a new channel.
Additional frequencies may checked in the Frequency Scan List depending on local practices, for
example an operator may want to configure an SM to only register on certain frequencies to drive
a known SM to AP mapping. Another example would be an operator who configures an SM to
register on many frequencies so that it may find another AP to register to if its usual AP isn’t
available.
Note: use site surveys and RF planning to choose alternate frequencies useful for each sector,
and consider testing on the alternate frequencies to ensure compatibility with the sector’s RF
environment.
4.5
NET ANTENNA GAIN FIELD
An AP, SM, or BH needs to know the gain of its antenna to perform DFS and Auto-TPC
(Automatic Transmit Power Control) (SM only) consistent with regional or national regulations.
The GUI includes a Net Antenna Gain field to support this.
Key points about the Net Antenna Gain field include:
•
Net Antenna Gain is defined as the gain of the antenna minus the loss in the coaxial
cable and connectors.
•
The Net Antenna Gain is set on the Configuration => Radio page of each module
(AP, SM, BHM, or BHS)
•
The default on a new unit or a unit reset to factory defaults is 17 dB.
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•
The range is 0 to 35 dB.
•
A 5.4-GHz SM or BH with an integrated antenna has a Net Antenna Gain of 17 dB.
•
The antenna sold with the connectorized 5.4 GHz AP has a gain of 18 dB and cable
loss of approximately 1 dB, giving a Net Antenna Gain of 17 dB.
•
A 4.9 GHz SM or BH with an integrated antenna has a Net Antenna Gain of 17 dB.
•
The antenna sold with the connectorized 4.9 GHz AP has a gain of 18 dB and cable
loss of approximately 1 dB, giving a Net Antenna Gain of 17 dB.
•
Any radio using DFS will use the Net Antenna Gain to appropriately adjust sensitivity
to radar signals. The use of DFS is determined by the Region Code setting on the
Configuration => Home page.
•
The Auto-TPC used by the PMP 400 Series system takes into account the Net
Antenna Gain so as not to exceed national or regional EIRP limits.
Procedure for setting the Net Antenna Gain
1. If using a BH or SM with an integrated antenna, or a connectorized AP with the
connectorized antenna sold with it, leave the Net Antenna Gain on the Configuration
=> Radio page set to the factory default of 17 dB.
2. If using another antenna, set the Net Antenna Gain to the gain of the antenna minus
the loss in coaxial cable and connectors.
IMPORTANT!
Ensure the Net Antenna Gain is set correctly. Setting it low or high can
lead to either a system overly sensitive to DFS events or a system not
transmitting at its full legal power.
4.6
NETWORK CONTROL PARAMETERS
Parameters for High Priority/DiffServ, NAT, DHCP, VLAN, MIR, and CIR are configured the same
as they are in standard Canopy. The operator may (or may not) want to take advantage of the
higher possible MIR to provide greater bandwidth to a given SM.
4.7
FORWARD ERROR CORRECTION
PMP 400/430 and PTP 200 Series radios use FEC (Forward Error Correction) to extend the
range of the modules. They use Reed-Solomon error correction optimized at 3/4 coding. The
coding rate is not settable by the operator.
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4.8
CYCLIC PREFIX (CONFIGURABLE ONLY ON PTP 200 BH & PMP 430
AP/SM)
OFDM technology uses a cyclic prefix, where a portion of the end of a symbol (slot) is repeated at
the beginning of the symbol (slot) to allow multi-pathing to settle before receiving the desired
data. A 1/4 cyclic prefix means that for every 4 bits of throughput data transmitted, an additional
bit is used, A 1/8 cyclic prefix means that for every 8 bit of throughput data transmitted, an
additional bit is used.
PMP 400 Series networks use a cyclic prefix of 1/4 that is not configurable by the operator.
PMP 430 Series networks use a default cyclic prefix of 1/4 that is configurable by the operator to
1/8. The Cyclic Prefix is set on the Configuration => Radio page on the AP. Changing the default
from 1/4 to 1/8 can increase throughput by ~2 Mbps (assuming 75% duty cycle) in installations
with low multipath conditions. It is recommended to test 1/8 cyclic prefix to determine actual
performance based on RF conditions.
PTP 200 Series modules (OFDM BHs) are settable for either 1/8 or 1/4 cyclic prefix. The use of
1/8 cyclic prefix provides about 11% higher maximum throughput, and is recommended for
backhaul operations in most cases.
•
The Cyclic Prefix is set on the Configuration => Radio page of the BHM.
•
The default on a new unit or when the unit is reset to factory defaults is 1/4 Cyclic
Prefix.
•
In most deployments, 1/8 Cyclic Prefix will provide a high quality, higher throughput
link. In cases with severe multi-pathing or obstructions, 1/4 Cyclic Prefix may give
better overall results.
Procedure for setting the Cyclic Prefix
3. Set the Cyclic Prefix on the Configuration => Radio page of both the BHM and the
BHS to 1/8 before deployment.
IMPORTANT!
The Cyclic Prefix must be set the same on both the BHM and the BHS.
If they don’t match, the BHS will not register to the BHM.
4. During installation use Link Tests to confirm link quality per standard installation and
alignment procedures.
5. If a Link Test shows low throughput or efficiency, consider changing the Cyclic Prefix
to 1/4 on both the BHM and the BHS along with other standard installation
troubleshooting procedures such as re-aiming, off-axis aiming, changing location,
raising or lowering the height of the radio, adjusting Transmission Power up or
down, or identifying and mitigating sources of interference.
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5 Installation
WARNING!
Installing a unit usually involves height, electricity, and exposure to RF
(Radio Frequency) energy. To avoid personal injury, follow applicable
national and local safety regulations along with industry best practices.
Also follow the specific guidelines in this document, including Exposure
Separation Distances in section 6.3 on page 60.
5.1
INSTALLING AN AP WITH CONNECTORIZED ANTENNA
This section addresses installation aspects specific to the PMP 400/430 and PTP 200 Series AP.
General communications equipment, infrastructure, and facilities site design should be performed
in line with Motorola’s “Standards and Guidelines for Communications Sites” (also known as the
R56 manual - document #68P81089E50-A)
These procedures are specific to the case of as AP purchased as a kit consisting of a
connectorized antenna and a connectorized radio. They are also generally applicable to
connectorized APs, SMs, or BHs when the antenna is purchased separately by the operator.
A short coaxial cable from the radio terminates in a male N connector. The antenna has a
chassis-mounted female N connector. The antenna includes tower mount brackets with
adjustable down-tilt.
Installing an AP typically consists of four phases:
1. Configuring the AP at an operator's facility or at the installation site using the
information and settings defined previously in Planning (Section 3) and Configuring
(Section 4).
2. Assembling the AP (radio and antenna and brackets) and physically installing it using
Procedure 2 for 5.8 and 5.4 GHz APs or Procedure 3 for 4.9 GHz APs, along with
physically installing a CMMmicro (for PMP 54400 AP only) or CMM4 (for either PMP
58430, 54400 or PMP 49400).
3. Cabling the AP to the CMMmicro (for PMP 54400 AP only) or CMM4 (for either PMP
58430, 54400 or PMP 49400), and grounding it to Protective Earth – PE using
Procedure 4. This phase can also include cabling to backhauls, or running terrestrial
feeds.
4. Confirming operation, using SMs in the field.
Local practices and choices of installation options will dictate the actual processes. For example,
variations on these generalized procedures can be used to install on a building or install multiple
APs on a pipe mount before hoisting up a tower for final attachment.
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Procedure 2: Assembling a 5.8 or 5.4 GHz AP, and attaching to tower
1. Perform a parts check to ensure all
parts are present.
2. Assemble the upper bracket, per the
diagram that comes with the
antenna.
3. Connect the radio to the antenna by
sliding it into the captive space.
Secure the radio to the antenna
using the two bolts provided.
4. Assemble the lower bracket on the
antenna assembly.
Although it may seem intuitive to
attach both brackets to the tower or
pole and then hang the antenna, it
usually works better to have the
bottom bracket already attached to
the antenna before climbing.
5. Weatherproof the connector with
waterproof wrap.
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6. Use standard work and
safety practices for
tower climbing. Connect
the upper bracket to a
pole, mounting fixture,
or the tower.
7. Hang the antenna assembly
on the upper bracket.
Canopy User Guide
8. Connect the lower bracket
to the pole or tower using
the quick-connect system
provided
9. The quick-connect system allows
easy attachment, detachment, and
adjustment without any lose parts.
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10. Adjust down tilt per calculations
done during Planning. Confirm
down tilt after the radio is
operational using SMs in the field at
selected test locations.
Procedure 3: Assembling a 4.9 GHz AP, and attaching to tower
1. Perform a parts check to
ensure all parts are
present.
2. Assemble unit per the
instructions that come with
the kit.
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3. Connect the radio to the
antenna by sliding it into
the captive space. Secure
the radio to the antenna
using the two bolts
provided.
4. Connect coax N-connector
5. Use standard work and
safety practices for tower
climbing, and connect the
upper assembly to a pole,
mounting fixture, or the
tower.
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6. Adjust down tilt per
previous calculations done
during Planning. Confirm
down tilt after the radio is
operational using SMs in
the field at selected test
locations.
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Procedure 4: Cabling and Grounding/Earthing the AP
1. Standard Canopy installation practices apply, including using shielded
Ethernet cable for all infrastructure cabling, using drip loops, providing extra
cable for future use at any termination, and ensuring the tower or structure
is fully grounded (Protective Earth – PE).
2. Use dielectric grease (which is uniformly non-conducting) on all
connections and in all RJ-45 Ethernet connectors. The best practice is to
use enough grease to fill the RJ-45 female connector, and then insert the
RJ-45 male connector and push the grease further into the Canopy unit and
around the RJ-45 connector. Excess grease can be wiped over the
connector area to provide some resistance to water ingress around the
connector.
3. Use a 600SS surge suppressor within 3 ft (~1 m) of the AP and ground it to
known good ground (Protective Earth - PE) on the tower or support
structure with a 10 AWG ground strap.
4. A pole mount kit is available for mounting the 600SS to the tower or mast.
The mount includes a termination point for the ground strap from the
600SSC.
5. Run a 10 AWG ground strap from the ground lug on the AP (see Figure 29)
to known good ground (Protective Earth - PE) to complete the grounding
and protection of the AP. The termination point on the 600SS pole mount kit
may be used for this.
Figure 29: Ground lug highlighted on AP
The PMP 400/430 AP and PTP 200 Series BH have metal-to-metal contact from the tower or
support structure, through the antenna, through the coax cable, to the radio. Installing surge
suppression at the AP is strongly recommended to provide the best protection from near lightning
hits.
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Install a 600SS surge suppressor within 3 ft (~1 m) of an AP or BH. A pole mount kit for the
600SS is shown in Figure 15 to facilitate installation of the 600SS by the AP or BH.
Up to four 600SS surge suppressors may be mounted in series on an Ethernet link without
degrading the link. The equivalent of a 600SS is built into each of the 8 ports on a CMM4 and
counts as one of the four. The CMMmicro uses a different protection scheme and does not have
the equivalent of a 600SS on each port.
As an example, a typical installation might have properly-grounded 600SS units within 3 ft of each
AP and additional properly-grounded 600SS units on each Ethernet cable mounted outside at the
point of cable entry to a telecommunications hut that contains the CMM4.
5.2
INSTALLING AN SM OR BH WITH AN INTEGRATED ANTENNA
Installing an SM or BH with an integrated antenna is very similar to installing standard Canopy
SMs as described in the Canopy System Release 8 User Guide, with the differences outlined
below.
Use an SMMB2 SM mounting bracket for the PMP 54400 and 49400 SM and a SMMB1 mounting
bracket for the PMP 58430 SM. The PMP 400 Series SM or the PTP 200 Series BH is heavier
and has a higher wind load than a classic Canopy module, and so the stronger SMMB2 is
required. The SMMB2 is the mounting arm used with Canopy 900 MHz integrated APs and SMs,
and used with reflectors.
Use dielectric grease (which is uniformly non-conducting) on all connections and in all RJ-45
Ethernet connectors. The best practice is to use enough grease to fill the RJ-45 female
connector, and then insert the RJ-45 male connector and push the grease further into the Canopy
unit and around the RJ-45 connector. Excess grease can be wiped over the connector area to
provide some resistance to water ingress around the connector.
Figure 30: Dielectric Grease – Apply to RJ45 connector
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Figure 31: Dielectric Grease - Insert Ethernet Cable
The PMP 400 SM and PTP 200 BH have a ground/Protective Earth lug, just like the AP. Although
not as critical as in the case of the AP (where there is metal-to-metal connectivity through the
coax and antenna to ground), the lug can be used to ground the SM or BH for additional
protection. In addition, a 600SS can be used within 3 ft (1 m) of the SM or BH to provide
additional protection. Especially for a BH, or in cases where the SM is mounted high and is more
exposed, or in known difficult areas for lightning, consider using these two techniques to increase
the radio’s resistance to lightning.
In all cases where Ethernet cables penetrate a building, home, or telecommunications hut, mount
a properly-grounded 600SS outside at the point of Ethernet cable building entry to protect
persons and property in the building.
PMP 400 and PTP 200 Series modules do not display a jitter value. Use “Received Power Level”
for aiming and then use Link Tests to confirm alignment.
The Receive Power Level is a relative, not absolute, value. The Receive Power Level on a
module is useful during installation to aid in aiming where relative values over a short period of
time are of interest. The displayed Receive Power Level is not designed to be highly accurate
over time. The displayed Receive Power Level will vary with board-level temperature and may
vary from module to module even if the actual received power is not varying. Know the limitations
and use caution and judgment for any other use of Receive Power Level. Caution is advised
when using Receive Power Level for monitoring a link over time, deciding if the link is within
operating margins, deciding if a link is serviceable (link tests give a much better indication), or
comparing the link to other links.
The alignment headset will play a tone that varies in pitch (received power level), but not volume
(jitter), since PMP 400 and PTP 200 Series modules don’t calculate a jitter.
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6 Regulatory and Legal Notices
6.1
IMPORTANT NOTE ON MODIFICATIONS
Intentional or unintentional changes or modifications to the equipment must not be made unless
under the express consent of the party responsible for compliance. Any such modifications could
void the user’s authority to operate the equipment and will void the manufacturer’s warranty.
6.2
6.2.1
NATIONAL AND REGIONAL REGULATORY NOTICES
U.S. Federal Communication Commission (FCC) Notification
For 5.4-GHz devices:
This device complies with Part 15 of the US FCC Rules and Regulations. Operation is subject to
the following two conditions: (1) This device may not cause harmful interference, and (2) This
device must accept any interference received, including interference that may cause undesired
operation.
This equipment has been tested and found to comply with the limits for a Class B digital device,
pursuant to Part 15 of the US FCC Rules. These limits are designed to provide reasonable
protection against harmful interference in a residential installation. This equipment generates,
uses, and can radiate radio-frequency energy and, if not installed and used in accordance with
these instructions, may cause harmful interference to radio communications. If this equipment
does cause harmful interference to radio or television reception, which can be determined by
turning the equipment on and off, the user is encouraged to correct the interference by one or
more of the following measures:
•
Increase the separation between the affected equipment and the unit;
•
Connect the affected equipment to a power outlet on a different circuit from that
which the receiver is connected to;
•
Consult the dealer and/or experienced radio/TV technician for help.
For 4.9-GHz devices:
The 4.9-GHz band is a licensed band allocated to public safety services. State and local
government entities that provide public safety services are eligible to apply for 4.9 GHz licenses.
For additional information, refer to FCC regulations.
FCC IDs and the specific configurations covered are listed in Table 13.
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Table 13: US FCC IDs and Industry Canada Certification Numbers and Covered Configurations
FCC ID
ABZ89FT7634
ABZ89FT7635
---
---
ABZ89FT7629
---
ABZ89FT7631
Industry
Canada Cert
Number
---
---
109W-5780
109W-5790
---
109W-5440
109W-4940
Frequencies
Module
Families
Antenna
10 MHz channels,
centered on 57305845 in 5 MHz
increments (within the
5725-5850 MHz ISM
band)
5780APC
16 dBi connectorized
PCTEL Model
8514724E01 antenna (60°
x 5° -3 dB beam width)
with 1 dB connector cable
loss
10 MHz channels,
centered on 57305845 in 5 MHz
increments (within the
5725-5850 MHz ISM
band)
5790SM
10 MHz channels,
centered on 57305845 in 5 MHz
increments (within the
5725-5850 MHz ISM
band)
5780APC
10 MHz channels,
centered on 57305845 in 5 MHz
increments (within the
5725-5850 MHz ISM
band)
5790SM
10 MHz channels,
centered on 54805710 in 5 MHz
increments (within the
5470-5725 MHz U-NII
band)
10 MHz channels,
centered on 54805595 and 5655-5710
MHz in 5 MHz
increments (within the
5470-5725 MHz U-NII
band with 5600-5650
MHz excluded)
10 MHz channels,
centered on 49454985 in 5 MHz
increments (within the
4940-4990 MHz
public safety licensed
band)
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Maximum
Tx Output
Power
20 dBm
10 dBi (55° x 55° and 3 dB
beam width)
19 dBm
16 dBi connectorized
PCTEL Model
8514724E01 antenna (60°
x 5° -3 dB beam width)
with 1 dB connector cable
loss
20 dBm
10 dBi (55° x 55° and 3 dB
beam width)
19 dBm
5440 AP
18 dBi connectorized
PCTEL Model
8514724E01 antenna (60°
x 5° -3 dB beam width)
with 1 dB connector cable
loss
10 dBm
5440 SM
5440 BH
17 dBi integrated antenna
(15° x 15° -3 dB beam
width)
10 dBm
5440 AP
18 dBi connectorized
PCTEL Model
8514724E01 antenna (60°
x 5° -3 dB beam width)
with 1 dB connector cable
loss
10 dBm
5440 SM
5440 BH
17 dBi integrated antenna
(15° x 15° -3 dB beam
width)
10 dBm
4940 AP
18 dBi connectorized
PCTEL Model AP
85010066001 antenna (60°
x 5° -3 dB beam width)
with 1 dB cable loss
18 dBm
4940 SM
4940 BH
17 dBi integrated antenna
(15.5° x 17.5° (el x az) -3
dB beam width)
18 dBm
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6.2.2
Canopy User Guide
Industry Canada (IC) Notification
For 5.4-GHz devices:
This device complies with RSS-210 of Industry Canada. Operation is subject to the following two
conditions: (1) This device may not cause harmful interference, and (2) This device must accept
any interference received, including interference that may cause undesired operation.
Users should be cautioned to take note that in Canada high power radars are allocated as
primary users (meaning they have priority) of 5650 – 5850 MHz and these radars could cause
interference and/or damage to license-exempt local area networks (LELAN).
This equipment has been tested and found to comply with the limits for a Class B digital device,
pursuant to RSS-210 of Industry Canada. These limits are designed to provide reasonable
protection against harmful interference in a residential installation. This equipment generates,
uses, and can radiate radio-frequency energy and, if not installed and used in accordance with
these instructions, may cause harmful interference to radio communications. If this equipment
does cause harmful interference to radio or television reception, which can be determined by
turning the equipment on and off, the user is encouraged to correct the interference by one or
more of the following measures:
•
Increase the separation between the affected equipment and the unit;
•
Connect the affected equipment to a power outlet on a different circuit from that
which the receiver is connected to;
•
Consult the dealer and/or experienced radio/TV technician for help.
To reduce potential radio interference to other users, the antenna type and its gain should be
chosen so its Equivalent Isotropic Radiated Power (EIRP) is not more than that permitted for
successful communication.
This device has been designed to operate with the antennas listed in Table 13 and having a
maximum gain as shown in Table 13. Antennas not included in Table 13 or having a gain greater
than as shown in Table 13 are strictly prohibited from use with this device. Required antenna
impedance is 50 ohms.
For 4.9-GHz devices:
The 4.9-GHz band is a licensed band allocated to public safety services. State and local
government entities that provide public safety services are eligible to apply for 4.9 GHz licenses.
For additional information, refer to Industry Canada regulations.
Industry Canada Certification Numbers and the specific configurations covered are listed in Table
13.
6.2.3
Regulatory Requirements for CEPT Member States (www.cept.org)
When operated in accordance with the instructions for use, Motorola Canopy Wireless equipment
operating in the 5.4 GHz bands is compliant with CEPT Recommendation 70-03 Annex 3 for
Wideband Data Transmission and HIPERLANs. For compliant operation in the 5.4 GHz band, the
transmit power (EIRP) from the integrated antenna or a connectorized antenna shall be no more
than 0.5 W (27 dBm).
For EU member states, RLAN equipment in the 5.4GHz bands is exempt from individual licensing
under Commission Recommendation 2003/203/EC. Contact the appropriate national
administrations for details on the conditions of use for the bands in question and any exceptions
that might apply. Also see www.ero.dk for further information.
10 MHz channels are used, centered on 5475 to 5595 and 5655 to 5715 in 5 MHz increments.
This is within the 5470 to 5725 MHz U-NII band with 5600 to 5650 MHz excluded.
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Motorola Canopy Radio equipment operating in the 5470 to 5725 MHz band are categorized as
“Class 1” devices within the EU in accordance with ECC DEC(04)08 and are “CE” marked
to show compliance with the European Radio & Telecommunications Terminal Equipment
(R&TTE) directive 1999/5/EC. The relevant Declaration of Conformity can be found at
http://motorola.motowi4solutions.com/doc.php.
A European Commission decision, implemented by Member States on 31 October 2005, makes
the frequency band 5470-5725 MHz available in all EU Member States for wireless access
systems. Under this decision, the designation of Canopy 5.4GHz products become “Class 1
devices” and these do not require notification under article 6, section 4 of the R&TTE Directive.
Consequently, these 5.4GHz products are only marked with the
any member state.
symbol and may be used in
For further details, see
http://europa.eu.int/information_society/policy/radio_spectrum/ref_documents/index_en.htm
6.2.4
Equipment Disposal
Waste (Disposal)
of Electronic
and Electric
Equipment
Please do not dispose of Electronic and Electric Equipment or Electronic and Electric Accessories
with your household waste. In some countries or regions, collection systems have been set up to
handle waste of electrical and electronic equipment. In European Union countries, please contact
your local equipment supplier representative or service center for information about the waste
collection system in your country.
6.2.5
EU Declaration of Conformity for RoHS Compliance
Motorola hereby declares that these Motorola products are in compliance with the essential
requirements and other relevant provisions of Directive 2002/95/EC, Restriction of the use of
certain Hazardous Substances (RoHS) in electrical and electronic equipment.
The relevant Declaration of Conformity can be found at
http://motorola.motowi4solutions.com/doc.php.
6.2.6
Luxembourg Notification
5.4GHz products can only be used for mobile services.
6.2.7
Czech Republic Notification
5.4 GHz products can be operated in accordance with the Czech General License
No. GL-30/R/2000.
6.2.8
Greece Notification
The outdoor use of 5470-5725MHz is under license of EETT but is being harm onized according
to the CEPT Decision ECC/DEC/(04) 08, of 9th July. E nd users are advised to contact the E E T T
to determine the latest position and obtain any appropriate licenses.
6.2.9
Brazil Notification
Brazil regulatory authorities have not approved these devices for operation in Brazil. Until
they are approved, they are not available for sale in Brazil, and the information in this
section is provisional and preliminary.
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For compliant operation in the 5.4 GHz band, the Equivalent Isotropic Radiated Power from the
integrated antenna or connectorized anteanna shall not exceed 27 dBm (0.5 W).
The operator is responsible for enabling the DFS feature on any Canopy 5.4 GHz radio by setting
the Region Code to “Brazil”, including after the module is reset to factory defaults.
Important Note: This equipment operates as a secondary application, so it has no rights against
harmful interference, even if generated by similar equipment, and cannot cause harmful
interference on systems operating as primary applications.
6.2.10 Labeling and Disclosure Table for China
The People’s Republic of China requires that Motorola’s products comply with China
Management Methods (CMM) environmental regulations. (China Management Methods refers to
the regulation Management Methods for Controlling Pollution by Electronic Information Products.)
Two items are used to demonstrate compliance; the label and the disclosure table.
The label is placed in a customer visible position on the product.
•
Logo 1 means that the product contains no substances in excess of the maximum
concentration value for materials identified in the China Management Methods
regulation.
•
Logo 2 means that the product may contain substances in excess of the maximum
concentration value for materials identified in the China Management Methods
regulation, and has an Environmental Friendly Use Period (EFUP) in years, fifty
years in the example shown.
Logo 1
Logo 2
The Environmental Friendly Use Period (EFUP) is the period (in years) during which the Toxic
and Hazardous Substances (T&HS) contained in the Electronic Information Product (EIP) will not
leak or mutate causing environmental pollution or bodily injury from the use of the EIP. The EFUP
indicated by the Logo 2 label applies to a product and all its parts. Certain field-replaceable parts,
such as battery modules, can have a different EFUP and are marked separately.
The Disclosure Table (see Table 14) is intended only to communicate compliance with China
requirements; it is not intended to communicate compliance with EU RoHS or any other
environmental requirements.
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Table 14: Disclosure Table
部件名称
金属部件
电路模块
电缆及电缆组件
塑料和聚合物部件
有毒有害物质或元素
铅
(Pb)
汞
(Hg)
镉
(Cd)
六价铬
6+
(Cr )
多溴联苯
(PBB)
多溴二苯醚
(PBDE)
×
○
×
×
○
○
×
○
×
×
○
○
×
○
×
×
○
○
○
○
○
○
○
×
○:
表示该有毒有害物质在该部件所有均质材料中的含量均在SJ/T11363-2006 标准规定的限量要求以下。
×:
表示该有毒有害物质至少在该部件的某一均质材料中的含量超出SJ/T11363-2006 标准规定的限量要求。
6.3
EXPOSURE SEPARATION DISTANCES
To protect from overexposure to RF energy, install Canopy radios so as to provide and maintain
the minimum separation distances from all persons shown in Table 15.
Table 15: Exposure Separation Distances
Module Type
Separation Distance from Persons
PMP 400/430 AP or SM or PTP 200 BH
At least 20 cm (approx 8 in)
Canopy Module (for comparison)
At least 20 cm (approx 8 in)
Section 6.3.1 and Table 16 give details and discussion of the associated calculations.
6.3.1
Details of Exposure Separation Distances Calculations and Power Compliance
Margins
Limits and guidelines for RF exposure come from:
•
US FCC limits for the general population. See the FCC web site at
http://www.fcc.gov, and the policies, guidelines, and requirements in Part 1 of Title 47
of the Code of Federal Regulations, as well as the guidelines and suggestions for
evaluating compliance in FCC OET Bulletin 65.
•
Health Canada limits for the general population. See Safety Code 6 on the Health
Canada web site at Error! Hyperlink reference not valid..
•
ICNIRP (International Commission on Non-Ionizing Radiation Protection) guidelines
for the general public. See the ICNIRP web site at http://www.icnirp.de/ and
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Guidelines for Limiting Exposure to Time-Varying Electric, Magnetic, and
Electromagnetic Fields.
The applicable power density exposure limits from the documents referenced above are
•
10 W/m2 for RF energy in the 5.4-GHz frequency bands.
Peak power density in the far field of a radio frequency point source is calculated as follows:
P⋅G
S=
4 π d2
where
S = power density in W/m2
P = RMS transmit power capability of the radio, in W
G = total Tx gain as a factor, converted from dB
d = distance from point source, in m
Rearranging terms to solve for distance yields
d=
P⋅G
4π S
Table 16 shows calculated minimum separation distances d, recommended distances and
resulting power compliance margins for each frequency band and antenna combination.
Table 16: Calculated Exposure Distances and Power Compliance Margins
Frequency
Band
5.4 / 5.8
GHz OFDM
4.9 GHz
OFDM
Antenna
Variable
(calculated)
Recommended
Separation
Distance
Power
Compliance
Margin
Integrated,
17 dBi
0.05 W
(10 dBm)
50
(17 dB)
10
W/m
6 cm
20 cm
(8 in)
10
Connectori
zed, 17 dBi
0.05 W
(10 dBm)
50
(17 dB)
10
W/m
6 cm
20 cm
(8 in)
10
Integrated,
17 dBi
0.063 W
(18 dBm)
40
(16 dB)
10
W/m
14 cm
20 cm
(8 in)
Connectori
zed, 17 dBi
0.063 W
(18 dBm)
40
(16 dB)
10
W/m2
14 cm
20 cm
(8 in)
The “Recommended Distances” are chosen to give significant compliance margin in all cases.
They are also chosen so that an OFDM module has the same exposure distance as a Canopy
module, to simplify communicating and heeding exposure distances in the field.
These are conservative distances:
•
They are along the beam direction (the direction of greatest energy). Exposure to the
sides and back of the module will be significantly less.
•
They meet sustained exposure limits for the general population (not just short term
occupational exposure limits), with considerable margin.
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•
Canopy User Guide
The calculated compliance distance d is overestimated because the far-field equation
models the antenna as a point source and neglects the physical dimension of the
antenna.
6.4
LEGAL NOTICES
6.4.1
Software License Terms and Conditions
ONLY OPEN THE PACKAGE, OR USE THE SOFTWARE AND RELATED PRODUCT IF YOU
ACCEPT THE TERMS OF THIS LICENSE. BY BREAKING THE SEAL ON THIS DISK KIT /
CDROM, OR IF YOU USE THE SOFTWARE OR RELATED PRODUCT, YOU ACCEPT THE
TERMS OF THIS LICENSE AGREEMENT. IF YOU DO NOT AGREE TO THESE TERMS, DO
NOT USE THE SOFTWARE OR RELATED PRODUCT; INSTEAD, RETURN THE SOFTWARE
TO PLACE OF PURCHASE FOR A FULL REFUND. THE FOLLOWING AGREEMENT IS A
LEGAL AGREEMENT BETWEEN YOU (EITHER AN INDIVIDUAL OR ENTITY), AND
MOTOROLA, INC. (FOR ITSELF AND ITS LICENSORS). THE RIGHT TO USE THIS
PRODUCT IS LICENSED ONLY ON THE CONDITION THAT YOU AGREE TO THE
FOLLOWING TERMS.
Now, therefore, in consideration of the promises and mutual obligations contained herein, and for
other good and valuable consideration, the receipt and sufficiency of which are hereby mutually
acknowledged, you and Motorola agree as follows:
Grant of License. Subject to the following terms and conditions, Motorola, Inc., grants to you a
personal, revocable, non-assignable, non-transferable, non-exclusive and limited license to use
on a single piece of equipment only one copy of the software contained on this disk (which may
have been pre-loaded on the equipment)(Software). You may make two copies of the Software,
but only for backup, archival, or disaster recovery purposes. On any copy you make of the
Software, you must reproduce and include the copyright and other proprietary rights notice
contained on the copy we have furnished you of the Software.
Ownership. Motorola (or its supplier) retains all title, ownership and intellectual property rights to
the Software and any copies,
including translations, compilations, derivative works (including images) partial copies and
portions of updated works. The Software is Motorola’s (or its supplier's) confidential proprietary
information. This Software License Agreement does not convey to you any interest in or to the
Software, but only a limited right of use. You agree not to disclose it or make it available to
anyone without Motorola’s written authorization. You will exercise no less than reasonable care to
protect the Software from unauthorized disclosure. You agree not to disassemble, decompile or
reverse engineer, or create derivative works of the Software, except and only to the extent that
such activity is expressly permitted by applicable law.
Termination. This License is effective until terminated. This License will terminate immediately
without notice from Motorola or judicial resolution if you fail to comply with any provision of this
License. Upon such termination you must destroy the Software, all accompanying written
materials and all copies thereof, and the sections entitled Limited Warranty, Limitation of
Remedies and Damages, and General will survive any termination.
Limited Warranty. Motorola warrants for a period of ninety (90) days from Motorola’s or its
customer’s shipment of the Software to you that (i) the disk(s) on which the Software is recorded
will be free from defects in materials and workmanship under normal use and (ii) the Software,
under normal use, will perform substantially in accordance with Motorola’s published
specifications for that release level of the Software. The written materials are provided "AS IS"
and without warranty of any kind. Motorola's entire liability and your sole and exclusive remedy
for any breach of the foregoing limited warranty will be, at Motorola's option, replacement of the
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disk(s), provision of downloadable patch or replacement code, or refund of the unused portion of
your bargained for contractual benefit up to the amount paid for this Software License.
THIS LIMITED WARRANTY IS THE ONLY WARRANTY PROVIDED BY MOTOROLA, AND
MOTOROLA AND ITS LICENSORS EXPRESSLY DISCLAIM ALL OTHER WARRANTIES,
EITHER EXPRESS OF IMPLIED, INCLUDING BUT NOT LIMITED TO IMPLIED WARRANTIES
OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE AND
NONINFRINGEMENT. MOTOROLA DOES NOT WARRANT THAT THE OPERATION OF THE
SOFTWARE WILL BE UNINTERRUPTED OR ERROR-FREE, OR THAT DEFECTS IN THE
SOFTWARE WILL BE CORRECTED. NO ORAL OR WRITTEN REPRESENTATIONS MADE
BY MOTOROLA OR AN AGENT THEREOF SHALL CREATE A WARRANTY OR IN ANY WAY
INCREASE THE SCOPE OF THIS WARRANTY. MOTOROLA DOES NOT WARRANT ANY
SOFTWARE THAT HAS BEEN OPERATED IN EXCESS OF SPECIFICATIONS, DAMAGED,
MISUSED, NEGLECTED, OR IMPROPERLY INSTALLED. BECAUSE SOME JURISDICTIONS
DO NOT ALLOW THE EXCLUSION OR LIMITATION OF IMPLIED WARRANTIES, THE ABOVE
LIMITATIONS MAY NOT APPLY TO YOU.
Limitation of Remedies and Damages. Regardless of whether any remedy set forth herein fails
of its essential purpose, IN NO EVENT SHALL MOTOROLA OR ANY OF THE LICENSORS,
DIRECTORS, OFFICERS, EMPLOYEES OR AFFILIATES OF THE FOREGOING BE LIABLE TO
YOU FOR ANY CONSEQUENTIAL, INCIDENTAL, INDIRECT, SPECIAL OR SIMILAR
DAMAGES WHATSOEVER (including, without limitation, damages for loss of business profits,
business interruption, loss of business information and the like), whether foreseeable or
unforeseeable, arising out of the use or inability to use the Software or accompanying written
materials, regardless of the basis of the claim and even if Motorola or a Motorola representative
has been advised of the possibility of such damage. Motorola's liability to you for direct damages
for any cause whatsoever, regardless of the basis of the form of the action, will be limited to the
price paid for the Software that caused the damages. THIS LIMITATION WILL NOT APPLY IN
CASE OF PERSONAL INJURY ONLY WHERE AND TO THE EXTENT THAT APPLICABLE
LAW REQUIRES SUCH LIABILITY. BECAUSE SOME JURISDICTIONS DO NOT ALLOW THE
EXCLUSION OR LIMITATION OF LIABILITY FOR CONSEQUENTIAL OR INCIDENTAL
DAMAGES, THE ABOVE LIMITATION MAY NOT APPLY TO YOU.
Maintenance and Support. Motorola shall not be responsible for maintenance or support of the
software. By accepting the license granted under this agreement, you agree that Motorola will be
under no obligation to provide any support, maintenance or service in connection with the
Software or any application developed by you. Any maintenance and support of the Related
Product will be provided under the terms of the agreement for the Related Product.
Transfer. In the case of software designed to operate on Motorola equipment, you may not
transfer the Software to another party except: (1) if you are an end-user, when you are
transferring the Software together with the Motorola equipment on which it operates; or 2) if you
are a Motorola licensed distributor, when you are transferring the Software either together with
such Motorola equipment or are transferring the Software as a licensed duly paid for upgrade,
update, patch, new release, enhancement or replacement of a prior version of the Software. If
you are a Motorola licensed distributor, when you are transferring the Software as permitted
herein, you agree to transfer the Software with a license agreement having terms and conditions
no less restrictive than those contained herein. You may transfer all other Software, not
otherwise having an agreed restriction on transfer, to another party. However, all such transfers
of Software are strictly subject to the conditions precedent that the other party agrees to accept
the terms and conditions of this License, and you destroy any copy of the Software you do not
transfer to that party. You may not sublicense or otherwise transfer, rent or lease the Software
without our written consent. You may not transfer the Software in violation of any laws,
regulations, export controls or economic sanctions imposed by the US Government.
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Right to Audit. Motorola shall have the right to audit annually, upon reasonable advance notice
and during normal business hours, your records and accounts to determine compliance with the
terms of this Agreement.
Export Controls. You specifically acknowledge that the software may be subject to United
States and other country export control laws. You shall comply strictly with all requirements of all
applicable export control laws and regulations with respect to all such software and materials.
US Government Users. If you are a US Government user, then the Software is provided with
"RESTRICTED RIGHTS" as set forth in subparagraphs (c)(1) and (2) of the Commercial
Computer Software-Restricted Rights clause at FAR 52 227-19 or subparagraph (c)(1)(ii) of the
Rights in Technical Data and Computer Software clause at DFARS 252.227-7013, as applicable.
Disputes. You and Motorola hereby agree that any dispute, controversy or claim, except for any
dispute, controversy or claim involving intellectual property, prior to initiation of any formal legal
process, will be submitted for non-binding mediation, prior to initiation of any formal legal process.
Cost of mediation will be shared equally. Nothing in this Section will prevent either party from
resorting to judicial proceedings, if (i) good faith efforts to resolve the dispute under these
procedures have been unsuccessful, (ii) the dispute, claim or controversy involves intellectual
property, or (iii) interim relief from a court is necessary to prevent serious and irreparable injury to
that party or to others.
General. Illinois law governs this license. The terms of this license are supplemental to any
written agreement executed by both parties regarding this subject and the Software Motorola is to
license you under it, and supersedes all previous oral or written communications between us
regarding the subject except for such executed agreement. It may not be modified or waived
except in writing and signed by an officer or other authorized representative of each party. If any
provision is held invalid, all other provisions shall remain valid, unless such invalidity would
frustrate the purpose of our agreement. The failure of either party to enforce any rights granted
hereunder or to take action against the other party in the event of any breach hereunder shall not
be deemed a waiver by that party as to subsequent enforcement of rights or subsequent action in
the event of future breaches.
6.4.2
Hardware Warranty in US
Motorola US offers a warranty covering a period of 1 year from the date of purchase by the
customer. If a product is found defective during the warranty period, Motorola will repair or
replace the product with the same or a similar model, which may be a reconditioned unit, without
charge for parts or labor.
6.5
LIMIT OF LIABILITY
IN NO EVENT SHALL MOTOROLA BE LIABLE TO YOU OR ANY OTHER PARTY FOR ANY
DIRECT, INDIRECT, GENERAL, SPECIAL, INCIDENTAL, CONSEQUENTIAL, EXEMPLARY OR
OTHER DAMAGE ARISING OUT OF THE USE OR INABILITY TO USE THE PRODUCT
(INCLUDING, WITHOUT LIMITATION, DAMAGES FOR LOSS OF BUSINESS PROFITS,
BUSINESS INTERRUPTION, LOSS OF BUSINESS INFORMATION OR ANY OTHER
PECUNIARY LOSS, OR FROM ANY BREACH OF WARRANTY, EVEN IF MOTOROLA HAS
BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. (Some states do not allow the
exclusion or limitation of incidental or consequential damages, so the above exclusion or
limitation may not apply to you.) IN NO CASE SHALL MOTOROLA’S LIABILITY EXCEED THE
AMOUNT YOU PAID FOR THE PRODUCT.
Issue 4 0 – DRAFT 6 November 2009
Page 64 of 64

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