Motorola Solutions 89FT7636 3630SMC Outdoor Subscriber Module User Manual rev

Motorola Solutions, Inc. 3630SMC Outdoor Subscriber Module rev

User manual rev

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Date Submitted2010-09-11 00:00:00
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Document TitleMicrosoft Word - PMP 320 Connectorized CSM UL Certification 0902.doc
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Document Author: WendyLiao

PMP 320 Hardware Installation
PMP320HDW2v1
JUL 2010
Preliminary
© 2010 Motorola, Inc.
All Rights Reserved
Accuracy
While reasonable efforts have been made to assure the accuracy of this document, Motorola, Inc.
assumes no liability resulting from any inaccuracies or omissions in this document, or from use of the
information obtained herein. Motorola, Inc. reserves the right to make changes to any products described
herein to improve reliability, function, or design, and reserves the right to revise this document and to make
changes from time to time in content hereof with no obligation to notify any person of revisions or changes.
Motorola, Inc. does not assume any liability arising out of the application or use of any product, software, or
circuit described herein; neither does it convey license under its patent rights or the rights of others. It is possible
that this publication may contain references to, or information about Motorola products (machines and programs),
programming, or services that are not announced
in your country. Such references or information must not be construed to mean that Motorola intends to announce
such Motorola products, programming, or services in your country.
Copyrights
This document, Motorola products, and 3rd Party Software products described in this document may
include or describe copyrighted Motorola and other 3rd Party supplied computer programs stored in
semiconductor memories or other media. Laws in the United States and other countries preserve for Motorola, its
licensors, and other 3rd Party supplied software certain exclusive rights for copyrighted material, including the
exclusive right to copy, reproduce in any form, distribute and make derivative works of the copyrighted
material. Accordingly, any copyrighted material of Motorola, its licensors, or the 3rd Party software supplied
material contained in the Motorola products described in this document may not be copied, reproduced,
reverse engineered, distributed, merged or modified in any manner without the express written permission of
Motorola. Furthermore, the purchase of Motorola products shall not be deemed to grant either directly or by
implication, estoppel, or otherwise, any license under the copyrights, patents or patent applications of
Motorola or other 3rd Party supplied software, except for the normal non-exclusive, royalty free license
to use that arises by operation of law in the sale of a product.
Restrictions
Software and documentation are copyrighted materials. Making unauthorized copies is prohibited by law. No part
of the software or documentation may be reproduced, transmitted, transcribed, stored in a retrieval
system, or translated into any language or computer language, in any form or by any means, without prior written
permission
of Motorola, Inc.
License Agreements
The software described in this document is the property of Motorola, Inc and its licensors. It is furnished by express
license agreement only and may be used only in accordance with the terms of such an agreement.
High Risk Materials
Components, units, or 3rd Party products used in the product described herein are NOT fault-tolerant and are NOT
designed, manufactured, or intended for use as on-line control equipment in the following hazardous environments
requiring fail-safe controls:
the operation of Nuclear Facilities, Aircraft Navigation or Aircraft
Communication Systems, Air Traffic Control, Life Support, or Weapons Systems (High Risk Activities). Motorola
and its supplier(s) specifically disclaim any expressed or implied warranty of fitness for such High Risk Activities.
Trademarks
Motorola and the Stylized M Logo are registered in the US Patent & Trademark Office. All other product or service
names are the property of their respective owners.
The CE mark confirms Motorola, Inc. statement of compliance with EU directives applicable to this product. Copies
of the Declaration of Compliance and installation information in accordance with the requirements of EN50385 can
be obtained from the local Motorola representative or by contacting the Customer Network Resolution
Center
(CNRC). The 24 hour telephone numbers are listed at
y o
po
ot=
Select Customer
htt=
s:=
r=
r=
r=
l=
/=
t=
.c
/=
Network Resolution Center contact information.
Alternatively if you do not have access to
CNRC or the internet, contact the Local Motorola Office.
Preliminary
JUL 2010
Table
of
Contents
Contents
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PMP 320 Hardware Installation
Revision
history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . .
Version
information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . .
General
information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . .
Purpose . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . .
Cross
references . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . .
Document banner
definitions
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. .
Text
conventions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . .
Contacting
Motorola . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . .
Escalate the problem to the PMP 320 Support
Team . . . . . . . . . . . . . . . . . . . . .
U.S. and
Canada . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . .
Latin America and Central
America . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Europe, Middle East, and
Africa . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Asia
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Pacific
. . . . . . . . . .
Chapter 1:
Product Description
Access Point
(AP)
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . .
1-3
Site
preparation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . .
1-5
Cluster Management Module 4
(CMM4) . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1-6
What is included when the CMM4 unit is
shipped . . . . . . . . . . . . . . . . . . . . . .
1-8
Point to Multi-point Cluster Subscriber Module
320 . . . . . . . . . . . . . . . . . . . . . . .
1-9
Site
considerations. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . .
1-10
Point to Multi-point Connectorized Cluster Subscriber Module
320 . . . . . . . . . . . . . . .
1-11
Site
considerations. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
JUL 2010
Preliminary
.
Chapter 2:
1-12
AP Hardware Installation
Installing the AP
Hardware
. . . . . . . . . . . . . . . . . . . . . . . .
. . . .
Assembling the AP and attaching to a
tower . . . . . . . . . . . . . . . . . . . . . . . . .
Assembling the AP and connecting the
antenna . . . . . . . . . . . . . . . . . . . . . . .
Earth Ground cable assembly and
connection . . . . . . . . . . . . . . . . . . . . . . .
LED
indicator . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . .
Attach the AP assembly to a
pole
. . . . . . . . . . . . . . . . . . . . . . . .
15
Surge Suppression
Information . . . . . . . . . . . . . . . . . . . . . .
AP Hardware Installation
complete . . . . . . . . . . . . . . . . . . . . . . .
19
Chapter 3:
. .
2-2
2-2
2-5
2-11
. . .
2-14
2-
. . .
2-19
2-
CMM4 Hardware Installation
Before you
begin . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . .
AvoidingHazards
. . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . .
Grounding
Equipment . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . .
Grounding Infrastructure
Equipment
. . . . . . . . . . . . . . . . . . . . . . . . . . . .
PMP320HDW2v1
. .
3-3
. .
3-3
. .
3-3
3-4
Preliminary
JUL 2010
Contents
Conforming to
Regulations. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . .
3-4
Protecting Cables and
Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34
Testing the
Components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . .
3-4
Unpacking
Components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . .
3-5
Installation
Overview
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . .
3-6
Installing the GPS
Antenna
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . .
3-7
Recommended Tools for GPS Antenna
Mounting. . . . . . . . . . . . . . . . . . . . . . .
3-7
Mounting a GPS
Antenna
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . .
3-7
GPS Coax
Cable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . .
3-8
Installing the power supply for the
CMM4 . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-10
56 VDC Power Supply
Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-10
30 VDC Power Supply
Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-12
Surge
Suppressors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . .
3-13
600SSD and 200SSB Surge Suppressor
installation . . . . . . . . . . . . . . . . . . . . .
3-13
L-COM Surge Suppressor
installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-14
Installing the
CMM4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . .
3-17
Cabling a
CMM4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . .
3-20
LED
indicators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . .
3-23
Power
Faults . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . .
3-24
Configuring CMM4
ports
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. .
3-25
Other Installation
Considerations . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-25
Chapter 4: Cables
DC
Cables . . . . . . . . .
. . . . . . . . . . .
Ethernet
Cables . . . . . . . . .
. . . . . . . .
JUL 2010
. .
4-2
. .
4-3
Preliminary
CMM Sync
Cable. . . . . .
. . . . . . .
Chapter 5:
. .
4-5
CSM Hardware Installation
Before you
begin . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . .
5-2
Additional material required for
installation . . . . . . . . . . . . . . . . . . . . . . . . .
5-2
Pre-installation
planning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . .
5-3
Components shipped with the
CSM . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
5-3
Cabling
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . .
5-4
Installing the
CSM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . .
5-6
Selecting a location for the
CSM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-6
Installation
Overview
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . .
5-7
Completing the mounting bracket
assembly . . . . . . . . . . . . . . . . . . . . . . . . .
5-7
Attaching the CSM and mounting the bracket assembly outside the building . . . . . . . . 58
Fastening the CSM and mounting the bracket assembly to a
pole . . . . . . . . . . . . . .
5-9
Aligning the CSM for best signal
strength . . . . . . . . . . . . . . . . . . . . . . . . . . . .
5-10
Connecting the CSM to the Ethernet cable, Earth Ground, the Surge Suppressor . . . . . . . . 512
Ethernet Cable
Assembly
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . .
5-12
Running cables through the wall of the
building . . . . . . . . . . . . . . . . . . . . . . . . .
5-14
Installing the 600SSD Surge
Suppressor. . . . . . . . . . . . . . . . . . . . . . . . . . . . .
5-15
Connecting the ground
wire . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
5-16
Connecting the power supply and the Ethernet cable to the computer. . . . . . . . . . . .
5-17
Chapter 6: Connectorized CSM Hardware Installation
ii
Before you
begin . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . .
6-3
Additional material required for
installation . . . . . . . . . . . . . . . . . . . . . . . . .
6-3
Pre-installation
planning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . .
6-4
Components shipped with the
CSM . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
6-4
Cabling
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . .
6-5
Installing the
CSM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . .
6-7
Selecting a location for the
CSM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-7
PMP320HDW2v1
Preliminary
JUL 2010
Content
Installation
Overview
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . .
6-8
Completing the mounting bracket
assembly . . . . . . . . . . . . . . . . . . . . . . . . .
6-8
Attaching the CSM and mounting the bracket assembly outside the building . . . . . . . . 69
Fastening the CSM and mounting the bracket assembly to a
pole . . . . . . . . . . . . . .
6-10
Connecting the Antenna Cables to the
Unit . . . . . . . . . . . . . . . . . . . . . . . . . . .
6-11
Connecting the CSM to the Ethernet cable, Earth Ground, the Surge Suppressor . . . . . . . . 613
Ethernet Cable
Assembly
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . .
6-13
Running cables through the wall of the
building . . . . . . . . . . . . . . . . . . . . . . . . .
6-15
Installing the 600SSD Surge
Suppressor. . . . . . . . . . . . . . . . . . . . . . . . . . . . .
6-16
Connecting the ground
wire . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
6-17
Connecting the power supply and the Ethernet cable to the computer. . . . . . . . . . . .
6-18
Chapter 7: Connectorized CSM Antenna Installation Instructions
Antenna Types used with the Connectorized
CSM . . . . . . . . . . . . . .
Dual Polarization/Dual Slant Subscriber
Antenna . . . . . . . . . . .
Omni Directional Base Station
Antenna . . . . . . . . . . .
7-2
7-2
7-6
Chapter 8: Regulatory, Legal, and Safety Notices
IMPORTANT NOTE ON
MODIFICATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-2
NATIONAL AND REGIONAL REGULATORY
NOTICES . . . . . . . . . . . . . . . . . . . . . .
8-3
U.S. Federal Communication Commission (FCC)
Notification . . . . . . . . . . . . . . . .
8-3
Industry Canada
Notification
. . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . .
8-4
European Union
Notification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. .
8-5
Equipment
Disposal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . .
8-5
EU Declaration of Conformity for RoHS
Compliance . . . . . . . . . . . . . . . . . . . . .
8-5
Labeling and Disclosure Table for
China . . . . . . . . . . . . . . . . . . . . . . . . . . .
8-6
RF EXPOSURE SEPARATION
DISTANCES . . . . . . . . . . . . . . . . . . . . . . . . . . . .
8-7
Details of Exposure Separation Distances Calculations and Power Compliance Margins . . .
8-7
Software License Terms and
Conditions . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
8-9
Hardware Warranty in
US . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. .
8-12
LIMIT OF
LIABILITY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . .
8-13
JUL 2010
Preliminary
iv
PMP320HDW2v1
Preliminary
JUL 2010
List
of
Figures
List of Figures
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Figure 1-1: High Level Network
Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1-2
Figure 1-2: Access Point (AP) shown with antenna attached and mounted on pole. . . . . . . . 13
Figure 1-3: AP, radio
only . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . .
1-4
Figure 1-4: CMM4 with door
open . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-6
Figure 1-5: CSM 320 subscriber
module . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1-9
Figure 1-6: Connectorized CSM 320 subscriber
module . . . . . . . . . . . . . . . . . . . . .
1-11
Figure 1-7: Connectorized CSM 320 rear view subscriber
module . . . . . . . . . . . . . . . .
1-11
Figure 2-1: Pipe Clamp Assembly
Identification . . . . . . . . . . . . . . . . . . . . . . . . .
2-4
Figure 2-2: AP and antenna parts with scissors
bracket . . . . . . . . . . . . . . . . . . . . .
2-4
Figure 2-3: LED location
diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 214
Figure 2-4: Mounting the AP to the
tower . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2-15
Figure 3-1: AP Installation and
wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-2
Figure 3-2: 600SSD surge suppressor
connectors . . . . . . . . . . . . . . . . . . . . . . . .
3-13
Figure 3-3: L-COM surge
suppressor
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 315
Figure 3-4: CMM4 unit opened showing connection
details . . . . . . . . . . . . . . . . . . .
3-18
Figure 3-5: CMM4 connection diagram located on the door of the
unit . . . . . . . . . . . . .
3-20
Figure 3-6: Port Status Showing Power
Fault . . . . . . . . . . . . . . . . . . . . . . . . . .
3-25
Figure 4-1: RJ-45 Straight-through
connections . . . . . . . . . . . . . . . . . . . . . . . . .
4-4
Figure 4-2: Pin 1 Location
diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44
Figure 4-3: CMM sync cable
pinouts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-6
Figure 4-4: CMM sync cable
pinouts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-6
Figure 5-1: CSM (CPE) 320
Identification . . . . . . . . . . . . . . . . . . . . . . . . . . . .
5-1
Figure 5-2: CSM
components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . .
5-4
Figure 5-3: CSM mounted to a
wall . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
5-5
Figure 5-4: Ethernet cable weather protection
assembly
. . . . . . . . . . . . . . . . . . . .
5-12
Figure 5-5: Cable connections from the surge suppressor to the CSM power injector and the
JUL 2010
Preliminary
CSM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . .
5-16
Figure 5-6: CSM 320 power
injector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-16
Figure 6-1: Connectorized CSM (CPE) 320
Identification . . . . . . . . . . . . . . . . . . . .
6-2
Figure 6-2: Connectorized CSM (CPE) 320 Rear View
Connectors . . . . . . . . . . . . . . . .
6-2
Figure 6-3: CSM
components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . .
6-5
Figure 6-4: CSM mounted to a
wall . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
6-6
Figure 6-5: Connectorized CSM antenna cable connector
location. . . . . . . . . . . . . . . .
6-11
Figure 6-6: Ethernet cable weather protection
assembly
. . . . . . . . . . . . . . . . . . . .
6-13
Figure 6-7: Cable connections from the surge suppressor to the CSM power injector and the
CSM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . .
6-17
Figure 6-8: CSM 320 power
injector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-17
Figure 7-1: Dual Polarization/Dual Slant Subscriber
Antenna . . . . . . . . . . . . . . . . . .
7-2
Figure 7-2: Mounting Bracket Parts
Identification . . . . . . . . . . . . . . . . . . . . . . . .
7-5
Figure 7-3: Dual Polarized / Dual Slant Subscriber Antenna Rear View for Mounting
Assembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . .
7-5
Figure 7-4: Omni Directional Base Station Antenna
Identification . . . . . . . . . . . . . . . .
7-7
Figure 7-5: Omni Directional Base Station Antenna Parts
Identification . . . . . . . . . . . . .
7-8
Figure 7-6: Omni Directional Base Station Antenna Bracket Identification
. . . . . . . . . . .
7-9
Figure 8-1: Disclosure
Table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
8-6
Figure 8-2: Peak power density
calculation . . . . . . .
PMP320HDW2v1
8-7
Preliminary
JUL 2010
List of Figures
List of Tables
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Table 1-1: Spectrum Range
Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2
Table 1-2: CAP 320 Antenna
Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . .
1-5
Table 1-3: CAP 320 Physical
Specifications
. . . . . . . . . . . . . . . . . . . . . . . . . . .
1-5
Table 1-4: CMM4 Model Numbers and Ethernet Switch
Configurations . . . . . . . . . . . . .
1-7
Table 2-1: Part list for the antenna and
AP . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2-3
Table 2-2: LED indicators for the
AP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2-14
Table 3-1: Cable
description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . .
3-9
Table 3-2: LED Indicators for the
CMM4. . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-24
Table 4-1: Wire size for CMM4 DC
cable . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4-2
Table 4-2: Recommended Ethernet
Cables . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4-3
Table 4-3: Recommended Ethernet
Cables . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4-4
Table 5-1: CSM parts
list. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. .
5-3
Table 6-1: CSM parts
list. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. .
6-4
Table 7-1: Dual Polarized / Dual Slant Subscriber Antenna Electrical Specifications . . . . . . .
73
Table 7-2: Dual Polarized / Dual Slant Subscriber Antenna Mechanical Specifications . . . . . . 7-3
Table 7-3: Dual Polarized / Dual Slant Subscriber Antenna Environmental Specifications . . . . 7-3
Table 7-4: Dual Polarized / Dual Slant Subscriber Antenna Parts
List . . . . . . . . . . . . . .
7-4
Table 7-5: Omni Directional Base Station Antenna Electrical Specification
. . . . . . . . . . .
7-7
Table 7-6: Omni Directional Base Station Antenna Mechanical Specification
. . . . . . . . . .
7-7
Table 7-7: Omni Directional Base Station Antenna Environmental Specification . . . . . . . . . 78
Table 7-8: Omni Directional Base Station Antenna Pole Mounting Parts List . . . . . . . . . . .
7-8
Table 8-1: FCC IDs and the specific
configurations
. . . . . . . . . . . . . . . . . . . . . . .
8-3
Table 8-2: Industry Canada Certification Numbers and the specific configuration . . . . . . . . 84
Table 8-3: Calculated exposure distances and power compliance margins . . . . . . . . . . . .
8-8
Table 8-4: Exposure separation
distances . . . . . . . . . . . . . . . . . . . . . . . . . . . .
8-8
PMP320HDW2v1
JUL 2010
vii
Preliminary
About
This
Manual
PMP 320 Hardware Installation
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What is covered in this manual?
The audience for this document includes network planners, system operators, network
administrators, and equipment installers.
This installation manual covers the physical installation procedures of the hardware for the PMP
320 product line which encompass the Cluster Access Point (CAP or AP), Cluster Manager
Module 4 (CMM4), and the Cluster Subscriber Module (CSM).
Software installation and configuration information for the AP and the CSM are covered in the
PMP 320 Administration and Configuration Guide.
PMP320HDW2v1
Preliminary
JUL 2010
Revision history
Revision history
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The following sections show the revision status of this document.
Version information
The following table describes the changes made to this document:
Version
Date of issue
JUL 2010
Description
Preliminary version for FCC/UL review.
PMP320HDW2v1
JUL 2010
Preliminary
General information
General information
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Purpose
Motorola documents provide the information to operate, install, and maintain Motorola
equipment. It is recommended that all personnel engaged in such activities be properly trained
by Motorola.
Motorola disclaims all liability whatsoever, implied or expressed, for any risk of damage, loss or
reduction in system performance arising directly or indirectly out of the failure of the customer,
or anyone acting on the customer's behalf, to abide by the instructions, system parameters, or
recommendations made in this document.
These documents are not intended to replace the system and equipment training offered by
Motorola. They can be used to supplement and enhance the knowledge gained through such
training.
NOTE
If this document was obtained when attending a Motorola training course, it is not
updated or amended by Motorola. It is intended for TRAINING PURPOSES ONLY. If it
was supplied under normal operational circumstances, to support a major software
release, then Motorola automatically supplies corrections and posts on the Motorola
customer website.
Cross references
References made to external publications are shown in italics. Other cross references,
emphasized in blue text in electronic versions, are active links to the references.
This document is divided into numbered chapters that are divided into sections. Sections are
not numbered, but are individually named at the top of each page, and are listed in the table of
contents.
Document banner definitions
A banner indicates that some information contained in the document is not yet approved for
general customer use. A banner is oversized text on the bottom of the page, for example,
PRELIMINARY — UNDER DEVELOPMENT
PMP320HDW2v1
Preliminary
JUL 2010
Text conventions
Text conventions
The following conventions are used in Motorola documents to represent keyboard input text,
screen output text, and special key sequences.
Input
Characters typed in at the keyboard are shown like this sentence.
Items of interest within a command appear like this sentence.
Output
Messages, prompts, file listings, directories, utilities, and environmental
variables that appear on the screen are shown like this sentence.
Items of interest within a screen display appear like this sentence.
Special key sequences
Special key sequences are represented as follows:
CTRL-c or CTRL+C
Press the Ctrl and C keys at the same time.
CTRL-SHIFT-c or
CTRL+SHIFT+C
Press the Ctrl, Shift, and C keys at the same time.
ALT-f or ALT+F
Press the Alt and F keys at the same time.
ALT+SHIFT+F11
Press the Alt, Shift and F11 keys at the same time.
¦
Press the pipe symbol key.
RETURN or ENTER
Press the Return or Enter key.
PMP320HDW2v1
JUL 2010
Preliminary
Contacting Motorola
Contacting Motorola
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Motorola appreciates feedback from users about our customer documents. Contact the
technical support team in your area with any feedback or issues with the documents.
When sending E-mail or calling Motorola for technical support, please include, as appropriate,
the software release on each module, the IP addresses, MAC addresses, and features enabled
on the system.
Escalate the problem to the PMP 320 Support Team
Escalate any issues to the Wireless Broadband Support Team by contacting the support team in
your area.
U.S. and Canada
E-mail: EMS-EICC-RM@motorola.com
Telephone: 1–866–961–9288
Latin America and Central America
E-mail: EMS-EICC-RM@motorola.com
Telephone:
•
Argentina: 0800–666–2789
•
Brazil: 0800–891–4360
•
Columbia: 01–800–912–0557
•
Mexico: 001–800–942–7721
•
Peru: 0800–70–086
•
All other Latin and Central American countries: +420 533 336 946
Europe, Middle East, and Africa
E-mail: essc@motorola.com
PMP320HDW2v1
Preliminary
JUL 2010
Asia Pacific
Telephone:
•
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
E-mail: WiBBsupport.apac@motorola.com
Telephone:
•
+6048503854 (9 AM through 5 PM Malaysia time)
•
+420 533 336 946 (outside the 9 am through 5 PM hours)
PMP320HDW2v1
JUL 2010
Preliminary
Chapter
Product Description
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A PMP 320 Access Network provides a low cost point-to-multipoint broadband solution
optimized for fixed outdoor applications. The access point is an 802.16e micro base station with
WiMAX 802.16e CSM interoperability. The system offers an integrated, all-outdoor solution
with simple installation for rapid deployment.
Target applications for the PMP 320 Access Network include:
•
Tier 1, Tier2, or Tier 3 carriers. Where the PMP 320 system provides a cost-effective,
reliable broadband connectivity for residential and business customers.
•
Government network operators, where the PMP 320 system provides broadband-based
infrastructure for administrative networks.
•
Wireless service providers, with broadband network service for any size operation.
•
Wireline service providers, with broadband wireless extensions for existing DSL or cable
networks.
As shown in Figure 1-1, a "Raintight" PMP 320 network consists of :
•
APs - Cluster Access Point (CAP) 320 Access Points, usually tower-mounted in a four-sector
configuration.
•
CPE - Cluster Subscriber Module (CSM) 320, Customer Premise Equipment (CPE), or also
known as Subscriber Module (SM) is usually mounted on a residence or other structure,
and powered by a power adapter providing standard 802.3af power over Ethernet.
•
CMM4 (Cluster Management Module 4) – is an outdoor enclosed unit housing a GPS
module connected to a GPS antenna. It contains synchronization and power-injection
circuitry, surge protection, and a managed switch. The CMM is used to provide custom
synchronization over power over Ethernet to the APs as well as offering a networked,
managed switch.
PMP320HDW2v1
1-1
Preliminary
JUL 2010
Asia Pacific
Chapter 1: Product Description
Figure 1-1
High Level Network Diagram
High Level Network Diagram
Core
Network
Internet
AP
Radio Access
Network
CMM4
Router
(optional)
CPE
AAA Server
EMS (optional)
DHCP Server DNS Server
(optional) (e.g., Wireless Manager) (optional)
(optional)
In addition, a PMP 320 network normally requires:
•
AAA Server – Authentication, Authorization, and Accounting server using the RADIUS
(Remote Authentication Dial In User Service) protocol
•
EMS – an Element Management System, such as the Motorola One Point Wireless Manager
•
DHCP Server – Dynamic Host Configuration Protocol server
•
DNS Server – Domain Name System server
•
CNUT – Network Update Tool for updating device software
•
Router – optional
Motorola offers PMP 320 equipment that operates in the spectrum ranges as shown in
Table 1-1
Spectrum Range Operation
Licensed Spectrum
Ranges
System
Name
AP
Name
= 3.3 GHz to 3.4 GHz
3.4 GHz to 3.6 GHz
PMP
35320
CAP
35320
PMP
36320
CAP
36320
3.6 GHz to 3.8 GHz
SM Model
Number
CSM
35320
3530APC
3530SM
3.3 GHz to 3.6 GHz
CSM
36320
3630APC
3630SM
3.6 GHz to 3.8
GHz (Includes
3.65 GHz)
1-2
JUL 2010
Supported
Frequencies
AP Model
Number
SM Name
PMP320HDW2v1
Preliminary
PMP 320 Hardware Installation
Access Point (AP)
Access Point (AP)
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A PMP 320 Access Point (AP) is an 802.16e micro base station that connects wirelessly to up to
200 PMP 320 Cluster Subscriber Modules (CSMs) or CPEs (Customer Premise Equipment). The
AP consists of a antenna and radio, as shown in Figure 1-2, with the radio shown separately in
Figure 1-3. The standard antenna is a dual-polarity 16.5 dBi antenna typically mounted in a
four 90° sector configuration. The AP is manageable by local web interface, as well as SNMP or
the Motorola One Point Wireless Manager.
WARNING
Installing an AP 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
maintaining a sustained exposure separation distance of 50 cm (~20 inches)
as described in the Regulatory, Legal, and Safety Notice in this document.
Figure 1-2
Access Point (AP) shown with antenna attached and mounted on pole
Rotate Up
To vertical poistion.
Radio attached
to Antenna with
Appropriate Hardware
1-20
PMP320HDW2v1
Preliminary
JUL 2010
Access Point (AP)
Chapter 1: Product Description
Figure 1-3
AP, radio only
The PMP 320 AP uses 802.16e for the over-the-air connection to the SMs or CSM. It is 802.16e
PHY and MAC compliant, and complies with the WiMAX Wave2 profile, except for mobility.
The AP uses a custom 56 VDC power system, typically powered by a CMM4. The AP uses
less than 25 W per AP, or less than 100 watts for 360° coverage. The AP includes integrated
surge suppression that is the equivalent to the 600SSD surge suppressor recommended for the
CSM (Cluster Subscriber Module) installations.
The AP functions as a router in the network, with routes to the CSMs (or SMs) auto-configured.
The AP supports ICMP and ARP.
The AP:
•
can be configured to either receive its IP address from a network DHCP server, or be
manually assigned its IP address.
•
can be configured to respond to SM DHCP requests either by relaying the requests to a
network DHCP server, or function as a DHCP server itself.
•
can be configured either to use an external AAA (Authentication, Authorization, and
Accounting) server, or use a minimal internal AAA server. When configured to use an
external AAA server, the AP serves as a relay between CSMs (SMs) and the AAA server
for authentication requests, and serves as a RADIUS client communicating with the AAA
server for authorization of SM services.
•
has an embedded web server for configuring using a web browser.
•
supports SNMP v1, and uses standard 802.16e MIBs (Management Information Base) as
well as the Motorola 802.16e AP MIB. The AP supports all Object Identifiers (OIDs) with
SNMP v1 and SNMP v2, however all traps are SNMP v1.
PMP320HDW2v1
1-21
Preliminary
JUL 2010
PMP 320 Hardware Installation
Table 1-2
Site preparation
CAP 320 Antenna Specifications
CAP 320 Antenna Specifications
Antenna Beam Width
Table 1-3
16.5 dBi gain Dual Polarity +/- 45 4 sector
application (actual 3 dB antenna pattern: 60
degree horizontal
CAP 320 Physical Specifications
CAP 320 Physical Specifications
Power Consumption
< 25 Watts
Temperature
-40° F to +131° F (-40° C to +55° C)
Wind Survival
118 miles/hr (190 km/hr)
Dimensions (LxWxD)
Integrated: ~711 x 195 x 240mm
Connectorized: ~330 x 195 x 140mm
Weight
Integrated: 5.5 kg
Connectorized: 2.2 kg
For additional information regarding spectrum and frequency information, refer to the PMP
320 Administration and Configuration Guide located at: http://motorola.wirelessbroadbandsupport.com/support/library/ .
Site preparation
Review the following site requirements before selecting the site for the installation of the
PMP 320 CAP:
•
Verify that a good Earth Ground can be achieved at the site.
•
Verify that the power to the site is reliable and can be backed up by an uninterruptible
power supply (UPS).
•
Verify that access to the site is easy if an urgent need arises. (It can take up to forty-five
minutes to key-down the transmitters at certain locations.)
•
Verify that the site is secure.
•
Be sure to negotiate a contract with the site owner that allows easy swap-out of existing
equipment without an added cost.
•
Accurately measure the latitude and longitude of the location for future reference.
1-22
PMP320HDW2v1
Preliminary
JUL 2010
Cluster Management Module 4 (CMM4)
Chapter 1: Product Description
Cluster Management Module 4 (CMM4)
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The Cluster Management Module 4 (CMM4) provides power, synchronization, and network
connectivity for up to eight APs, backhauls, and Ethernet terrestrial feeds in a variety of
configurations.
Figure 1-4
CMM4 with door open
Cabling Diagram on
Inside of Front Door
The CMM4 provides:
•
Sync over Power over Ethernet and integrated surge suppression on the controller board
for up to 8 APs or BHs. Both a custom 30 VDC power scheme and a custom 56 VDC power
scheme are available. Neither is the same as the later IEEE Standard 802.3af, and neither
is compatible with it.
•
Managed switching using a hardened EtherWAN switch. The CMM4 ships with a 14-port
EtherWAN switch and is also available without a switch.
•
A weather-tight enclosure with either 4 or 7 glands/ports for Ethernet and power cables.
•
Surge suppression on the controller board for the incoming 30V DC and 56V DC power
lines and GPS coax cable.
PMP320HDW2v1
1-23
Preliminary
JUL 2010
PMP 320 Hardware Installation
Table 1-4
CMM4 Model
Number
1090CK
1091
Cluster Management Module 4 (CMM4)
•
Auto-negotiation on the Ethernet ports. Ports will auto-negotiate to match inputs that are
either 100Base-T or 10Base-T, and either full duplex or half duplex, when the connected
device is set to auto-negotiate. Alternatively, these parameters are settable.
•
An always-on NTP (Network Time Protocol) server that can provide date and time to any
radio that can reach the CMM’s management IP address.
CMM4 Model Numbers and Ethernet Switch Configurations
CMM4 Extended
Model Number
EtherWAN Switch
Total Ports
10/100 Base
–TX Ports
10/100/1000
Base-TX Ports
Cable Glands (ports)
1090CKBA (current
units)
14
12
1090CKAA (earlier
units)
NA
No Switch
Inside the CMM4 enclosure is a controller board, an EtherWAN switch, and a GPS coax
surge suppressor. Also inside the CMM4 enclosure is the EtherWAN switch port. This
connection is where the Ethernet Gigabit connection is made. For more information about
the EtherWAN switch and how the port is managed or for information on earlier versions
of the CMM4 units refer to the Cluster Management Module 4 User Guide located at:
http://motorola.wirelessbroadbandsupport.com/ .
The controller board injects power and synchronization on up to eight Ethernet ports and
provides the equivalent of 600SSD surge suppression on each of the eight ports. The controller
board is managed using a web browser, or SNMP, and is supported by the Prizm Element
Management System (EMS). The controller board receives 30 VDC power and/or 56 VDC from
external power supplies, and provides 20 VDC power for the EtherWAN switch and other
auxiliary equipment. The controller board includes a GPS module, which provides sync and
GPS information to the CMM, a management port, an override toggle switch, and an auxiliary
sync port for connecting to another CMM.
NOTE
The controller board does not convert 30 VDC to 56 VDC or 56 VDC to 30 VDC. To
power 56 VDC equipment from a CMM4 you must provide a 56 VDC power supply, and
to power 30 VDC equipment from a CMM4 you must provide a 30 VDC power supply.
The CMM4 requires a GPS antenna and a power supply. The directions for installing the power
supply and the GPS are provided in Chapter 3 CMM4 Hardware Installation.
1-24
PMP320HDW2v1
Preliminary
JUL 2010
What is included when the CMM4 unit is shipped
Chapter 1: Product Description
What is included when the CMM4 unit is shipped
The CMM4 as shipped includes:
•
Weatherized enclosure containing the controller board, EtherWAN Ethernet Switch, and
GPS coax surge suppressor
•
Patch cables between the controller board and the EtherWAN Ethernet Switch
•
U-bolts and V-brackets for pole-mounting the CMM4
•
GPS Antenna
•
GPS antenna pole-mount kit
•
A 1-hole cable gland insert for use on the DC power cable
The CMM4 as shipped does not include:
•
Any power supply. The appropriate power supply(s), 30 VDC and/or 56 VDC, must be
ordered separately
•
Ethernet cables to connect the CMM4 to APs, backhauls, or terrestrial feeds
•
Coax cable connecting the CMM4 to the GPS antenna
•
DC power line cables are not provided (AC power line cables are not included with the
power supplies)
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PMP 320 Hardware Installation
Point to Multi-point Cluster Subscriber Module 320
Point to Multi-point Cluster Subscriber Module 320
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Figure 1-5
Canopy
CSM 320 subscriber module
CSM 320
Ethernet Connector
Front
Rear
The PMP 320 Cluster Subscriber Module (CSM) or also known as the Customer Premise
Equipment (CPE), or the Subscriber Module (SM) is the device that extends the broadband
network or internet services to the end user through communication with the PMP 320 AP.
The key features of the CSM are:
•
an integrated 14.5 dBi gain antenna
•
802.3af power over Ethernet (4 VDC)
•
802.16e standard fixed, outdoor solution
•
products that are available in the 3.3 GHz – 3.8 GHz spectrum
The CSM is managed by a local web interface, SNMP, or the Motorola Wireless Manager. The
CSM also functions as a Network Address Translation (NAT) device.
1-26
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■
Site considerations
Chapter 1: Product Description
Site considerations
Review the following site requirements before selecting the site for the installation of the
PMP 320 CSM:
•
When ordering CSMs for the site, ensure that the same band CSM is ordered as is used
for the AP.
•
Mount the CSM as high off the ground as possible to minimize theft.
•
Communicate to the end-user that they are responsible for the loss/damage to the CSM
while in their care.
•
Route and hide the ENET cables against the house following local installation codes. This
extra effort lowers the chance of a new home owner taking down the CSM and its wiring.
•
Avoid penetrating the roof; this will help mitigate issues with leaks.
•
Work with the local home owners association (HOA) to receive approval of the CSM
solution.
•
Take several measurements to several different AP locations, the closest AP might not
be the best signal.
•
Perform a RF survey of the surrounding area; chances are that this installation will ignite
more interest in this solution in the area.
PMP320HDW2v1
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PMP 320 Hardware Installation
Point to Multi-point Connectorized Cluster Subscriber Module 320
Point to Multi-point Connectorized Cluster Subscriber
Module 320
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Figure 1-6
Connectorized CSM 320 subscriber module
G1_CCSMfrtpanelview.eps
Figure 1-7
Connectorized CSM 320 rear view subscriber module
G1_CCSM_rearviewconn.ext
The PMP 320 Connectorized Cluster Subscriber Module (CSM) or also known as the Customer
Premise Equipment (CPE), or the Subscriber Module (SM) is the device that extends the
broadband network or internet services to the end user through communication with the PMP
320 AP. The key features of the CSM are:
1-28
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■
Site considerations
Chapter 1: Product Description
•
802.3af power over Ethernet (48 VDC)
•
802.16e standard fixed, outdoor solution
•
products that are available in the 3.3 GHz – 3.8 GHz spectrum
The Connectorized CSM is managed by a local web interface, SNMP, or the Motorola Wireless
Manager. The Connectorized CSM also functions as a Network Address Translation (NAT)
device.
Site considerations
Review the following site requirements before selecting the site for the installation of the
PMP 320 CSM:
•
When ordering Connectorized CSMs for the site, ensure that the same band Connectorized
CSM is ordered as is used for the AP.
•
Mount the Connectorized CSM as high off the ground as possible to minimize theft.
•
Communicate to the end-user that they are responsible for the loss/damage to the
Connectorized CSM while in their care.
•
Route and hide the ENET cables against the house following local installation codes.
This extra effort lowers the chance of a new home owner taking down the Connectorized
CSM and its wiring.
•
Avoid penetrating the roof; this will help mitigate issues with leaks.
•
Work with the local home owners association (HOA) to receive approval of the
Connectorized CSM solution.
•
Take several measurements to several different AP locations, the closest AP might not
be the best signal.
•
Perform a RF survey of the surrounding area; chances are that this installation will ignite
more interest in this solution in the area.
PMP320HDW2v1
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Chapter
AP Hardware Installation
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This chapter provides the instructions and procedures needed to:
•
connect the antenna brackets
•
connect the AP radio antenna to the antenna
•
cable the unit
•
mount the unit to a pole, mounting fixture, or tower
•
ground the unit
•
connect surge suppression
PMP320HDW2v1
JUL 2010
2-1
Preliminary
Installing the AP Hardware
Chapter 2: AP Hardware Installation
Installing the AP Hardware
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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) available from: https://motorolawls.
motolms.com/Secure/Course_Description.asp?number=ANT001- CD.
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 the following phases:
1.
Configure the AP at an operator's facility or at the installation site using the information
and settings defined in the Planning and Configuring sections of the PMP 320
Administration and Configuration Guide.
2.
Assemble the AP (radio, antenna, and brackets) and physically install it using
Procedure 2-1. A CMM4 is typically installed at the same time, if not previously installed.
3.
Cable the AP to the CMM4 and ground it to Protective Earth – PE using Procedure 2-2.
4.
This phase can also include cabling to backhauls, or running terrestrial feeds.
5.
Confirm operation, using CSMs 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.
Assembling the AP and attaching to a tower
Review the following parts identification graphics to ensure that all the top pipe clamp assembly
brackets parts are present before beginning the installation. Refer to Figure 2-1 and Figure 2-2
to see the parts that make up the antenna and AP.
The parts consist of:
2-2
PMP320HDW2v1
Preliminary
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PMP 320 Hardware Installation
Table 2-1
Assembling the AP and attaching to a tower
Part list for the antenna and AP
Part name
Quantity
Antenna
AP radio
Attaching brackets to antenna
Scissors bracket
Top pipe clamp assembly
Bottom pipe clamp assembly
2.24 inch spacer
2.36 inch spacer
5/16-18 x 3.5 inch hex pivot
bolt
5/16-18 inch split lock
washer
5/16-18 flat washer
5/16-18 hex nut
Attaching AP to Antenna
M6 carriage bolt
M6 split lock washer
M6 flat washer
M6 hex nut
Attaching pipe clamps to pipe
3/8-16 inch split lock washer
3/8-16 inch flat washer
3/8-16 hex nut
PMP320HDW2v1
2-3
Preliminary
JUL 2010
Assembling the AP and attaching to a tower
Figure 2-1
Chapter 2: AP Hardware Installation
Pipe Clamp Assembly Identification
BOTTOM PIPE CLAMP ASSEMBLY
Longer Bracket
TOP PIPE CLAMP ASSEMBLY
3/8-16
Lock Washer
3/8-16
Hex Nut
Figure 2-2
3/8-16
Lock Washer
3/8-16
Split Lock Washer
3/8-16
Hex Nut
3/8-16
Split Lock Washer
AP and antenna parts with scissors bracket
Pole Is Shown
For Reference
Antenna
Radio
(Secured on Antenna)
DIV connector
MAIN connector
Ethernet
2-4
PMP320HDW2v1
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JUL 2010
PMP 320 Hardware Installation
Assembling the AP and connecting the antenna
Assembling the AP and connecting the antenna
Use the following procedure to assemble the pipe clamp brackets to the AP, and attach the radio
to the antenna. These steps are performed before the AP is mounted on the pole.
Required Tools
•
Two ½ inch wrenches
•
9/16 inch wrench and inclinometer
•
10mm socket wrench
Torque Requirements
•
3/8 -16 pipe clamp hardware to 9 ft-lbs (12.2 N.m)
•
5/16-18 mount hardware 10 ft-lbs (13.5 N.m)
•
M6 hardware 7 ft-lbs (9.5 N.m)
Procedure 2-1
Assemble the AP and antenna for pole mounting
Continued
PMP320HDW2v1
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Preliminary
JUL 2010
Assembling the AP and connecting the antenna
Procedure 2-1
Chapter 2: AP Hardware Installation
Assemble the AP and antenna for pole mounting (Continued)
Perform a parts check to ensure all parts are present.
Connect the pipe clamp assembly brackets to the antenna.
NOTE
Determine between the two pipe clamp assemblies which bracket
has the longer bracket bar. The bracket with the longer bar is
attached to the bottom of the antenna. The bracket with the shorter
bar is used for the top of the antenna and connected to the scissors
downtilt bracket.
Continued
2-6
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PMP 320 Hardware Installation
Assembling the AP and connecting the antenna
Procedure 2-1
Assemble the AP and antenna for pole mounting (Continued)
BOTTOM PIPE CLAMP ASSEMBLY
Longer Bracket
TOP PIPE CLAMP ASSEMBLY
3/8-16
Lock Washer
3/8-16
Hex Nut
3/8-16
Lock Washer
3/8-16
Split Lock Washer
3/8-16
Hex Nut
3/8-16
Split Lock Washer
Using the longer bracket pipe clamp (Bottom pipe clamp assembly) attach
the bracket to the bottom of the antenna using a 5/16-18 x 3.5 inch hex pivot
bolt, 5-16 hex nut.
Spacer (2.24in)
5/16-8
Hex Nut
5/16-8 x 3.5in
Hex Pivot Bolt
5/16-8
Flat Washer
5/16-8
Split Lock Washer
Continued
PMP320HDW2v1
2-7
Preliminary
JUL 2010
Assembling the AP and connecting the antenna
Procedure 2-1
Chapter 2: AP Hardware Installation
Assemble the AP and antenna for pole mounting (Continued)
Using a 5/16-18 x 3.5 hex pivot bolt, 5-16 split lock waster, 5/16 split flat
washer, smaller spacer (2.36 inches) and a 5/16 hex nut, connect the scissor
bracket to the top of the antenna.
See Detail A
Outside
5/16-8
Split Lock Washer
5/16-8
Hex Nut
5/16-8
Flat Washer
5/16-8 x 3.5in
Hex Pivot Bolt
Spacer (2.36in)
Detail A
Inverted Scissor Mount
Using the bracket with the shorter bar, attach the downtilt scissor bracket
pointing up (inverted scissor mount) to avoid physical interference between
the bracket and the radio housing. Connect the scissor bracket to the short
pipe bracket to the scissor bracket by attaching the 5/16-18 x 3.5 inch hex
pivot bolt, 5/16-18 flat washer, shorter spacer (2.24 inches) and the 5/16 –
18 hex nut.
Continued
2-8
PMP320HDW2v1
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PMP 320 Hardware Installation
Procedure 2-1
Assembling the AP and connecting the antenna
Assemble the AP and antenna for pole mounting (Continued)
5/16-8
Flat Washer
See Detail A
Use Shorter
Spacer (2.24in)
5/16-8 x 3.5in
Hex Pivot Bolt
5/16-8
Split Lock Washer
5/16-8
Hex Nut
Detail A
NOTE
Use a level (inclinometer) to tilt of the antenna when installing at
the site. The scissor bracket has degree markings from 0 to 15 on
the bracket, but it is recommended for accuracy to use a level.
Connect the radio to the antenna by sliding it into the captive space.
Radio
2X M6 Hex Nut
2X M6 Lock Washer
2X M6 Flat Washer
NOTE: Slide Radio into
captive space of Antenna
First then secure with
mounting hardware
PMP320HDW2v1
Antenna
2X
M6 Carriage Bolt
2-9
Preliminary
JUL 2010
Assembling the AP and connecting the antenna
Chapter 2: AP Hardware Installation
Continued
Procedure 2-1
Assemble the AP and antenna for pole mounting (Continued)
2-10
PMP320HDW2v1
Preliminary
JUL 2010
PMP 320 Hardware Installation
Assembling the AP and connecting the antenna
Secure the radio to the antenna using the two M6 carriage bolts, M6 flat
washers; M6 split lock washer and the M6 hex nut. Torque the M6 nut 7 ft-lbs
(9.5 N.m).
The unit is shown away from the antenna in order to illustrate bolt locations.
Antenna
Pole Is Shown
For Reference
M6 Carriage Bolt
Radio
M6 Flat Washer
M6 Lock Washer
M6 Hex Nut
M6 Carriage Bolt
M6 Flat Washer
M6 Lock Washer
M6 Hex Nut
DIV Connector
MAIN Connector
Connect the cable labeled:
•
MAIN to the antenna connector labeled MAIN
•
with no label to the antenna connector labeled DIV (Diversity).
Continued
PMP320HDW2v1
2-11
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PMP 320 Hardware Installation
Procedure 2-1
Earth Ground cable assembly and connection
Assemble the AP and antenna for pole mounting (Continued)
Pole Is Shown
For Reference
Antenna
Radio
(Secured on Antenna)
DIV connector
MAIN connector
VIEW A
Earth Ground cable assembly and connection
Standard installation practices apply which include:
•
use of shielded Ethernet cable for all infrastructure cabling
•
use of drip loops at any point where the cable changes direction
•
extra cable (a splice loop) is provided for future use at any termination
•
ensuring the tower or structure is fully grounded (Protective Earth – PE)
•
use water tight tape, followed by electrical tape on all N-connectors
Procedure 2-2
Cabling and grounding the AP
Continued
2-12
PMP320HDW2v1
Preliminary
JUL 2010
Earth Ground cable assembly and connection
Procedure 2-2
Chapter 2: AP Hardware Installation
Cabling and grounding the AP (Continued)
Remove the connection protection casing using the thumb release at the
back of the AP Unit.
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 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.
Connect the Ethernet cable to the connector labeled ETHERNET. Note that
the AUX port is not used at this time.
Continued
PMP320HDW2v1
2-13
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PMP 320 Hardware Installation
Procedure 2-2
Earth Ground cable assembly and connection
Cabling and grounding the AP (Continued)
Run a 10 AWG ground strap from the ground lug on the AP to known good
ground (Protective Earth - PE).
AP Ground Lug
Ground the radio to the tower.
Be sure to reattach the bottom cover of the AP connection cover.
2-14
PMP320HDW2v1
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LED indicator
Chapter 2: AP Hardware Installation
LED indicator
The LED display for the AP are either Green or off.
Figure 2-3
Table 2-2
LED location diagram
LED indicators for the AP
LED
Description
PWR (D14)
Power – green indicates the DC power
is on. This LED indicates that
the board is powered on.
SYN/1 (D13)
Synchronization indicator – this indicator is
on whenever the AP is synchronized with the
GPS, or when ever the GPS is not used at all.
SES/2 (D12)
Not used, but is always ON.
LNK/5 (D9)
GMAC Ethernet – the LED is on when
the GMAC Ethernet link is up.
ACT/4 (D10)
Activity – indicates activity on the ENET port.
GPS/3 (D11)
GPS pulse indicator – this LED is
on every 1 pps interrupt, and turned off
20 frames after 100 milliseconds).
PMP320HDW2v1
2-15
Preliminary
JUL 2010
Attach the AP assembly to a pole
Chapter 2: AP Hardware Installation
Attach the AP assembly to a pole
WARNING
Maintain a safe distance from RF exposure when mounting the AP on the tower 50 cm
(20 inches). Maintain a safe distance from power lines.
The network planner should provide the antenna pattern information for the installation. The
network is planned from true north 0 degrees. Use a compass to ensure there is no overlap of
the antennas as they are installed.
Figure 2-4
Mounting the AP to the tower
AP
Communications Bldg
Cable Tray
BT-0781S-XXX
AP Grounded
to Tower
with 10AWG wire
BT-0781S-XXX
Network
Switch or
Router
CMM4
Drip Loop
600SSD
AC Power
200SSB
Tower Ground
Tower
SGPN4076
Earth Ground
2-16
PMP320HDW2v1
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PMP 320 Hardware Installation
Attach the AP assembly to a pole
NOTE
•
The L-COM surge suppressor is used if the Gigabit Ethernet port is used in
the CMM4. The L-COM when used is installed either in the CMM4 cabinet, or
installed inside the communications building.
•
This figure shows the GPS near the top of the AP unit. For installation
information about the GPS refer to Installing the GPS Antenna on page 3-7.
•
The AC line cord is not provided with the hardware.
This figure shows the GPS near the top of the AP unit. For installation information about the
GPS refer to Installing the GPS Antenna on page 3-7.
Procedure 2-3
Attaching the AP assembly to a pole
Using standard work and safety practices for tower climbing, connect the
assembled unit (assembled antenna, brackets and radio) to a pole, mounting
fixture, or a tower. The unit must be mounted to avoid accidental touching
by personnel. The standard mounting height is typically at least 4 m (13
ft) above ground level.
Pole Is Shown
For Reference
Antenna
Radio
(Secured on Antenna)
DIV connector
MAIN connector
Ethernet
NOTE
Approximate cable distance between the AP and the CMM4 is 100
meters.
Continued
PMP320HDW2v1
2-17
Preliminary
JUL 2010
Attach the AP assembly to a pole
Chapter 2: AP Hardware Installation
Procedure 2-3
Attaching the AP assembly to a pole (Continued)
Install the top and bottom clamps to the pipe. Slide the clamp bracket on to
the carriage bolts. Slide on a 3/8-16 flat washer, 3/8-16 split lock washer and
a 3/8-16 hex nut to each carriage bolt.
NOTE
•
Align the AP setting the desired downtilt degree using the
inclinometer.
•
The network planner should provide the antenna pattern
information for the installation. The network is planned from
true north 0 degrees. Use a compass to ensure there is no
overlap of the antennas as they are installed.
Tighten the hex nut to 10 ft-lbs (13.5 N.m) after the AP has been aligned to
the optimum downtilt position.
Connect the Ethernet cable from the AP to the CMM4 port controller. There
are up to 14 ports in one CMM4 switch, but only 8 ports on the CMM4
motherboard that can power up a radio. Ensure that surge suppression has
been installed for this connection. See the section on Surge Suppression
Information. Follow the site plan created by the network planner when
connecting cables to the CMM4 switch.
Continued
2-18
PMP320HDW2v1
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PMP 320 Hardware Installation
Attach the AP assembly to a pole
Procedure 2-3
Attaching the AP assembly to a pole (Continued)
Black
TOTAL 20 VDC
ACCESSORY POWER
IS NOT TO EXCEED
20 WATTS.
EtherWAN Switch
( Power Port View )
Short wire to ChassisGround
at Switch mounting screw
for RF emission compliance.
NOTE:
Refer to the System User Guide for
the power requirement of the switch
specific to the switch part number.
+20 V
OUTPUT
GND (Black)
REDUNDANT
+V (Red)
GND GND +V GND
+V GND
REDUNDANT
+29 V
+29 V
INPUT
GND +V
+56 V
+56 V
INPUT
INPUT
INPUT
+V
GND
+V GND
+V GND PE
EXTERNAL
PROTECTIVE EARTH
GROUND
CMM4 CONTROLLER ( Power Port View )
+29 V
OUTPUT
POWER
DEFAULT
GPS_M
ETHERNET PWR
ACTIVITY
LINK
SYNC OK
EtherWAN Switch
( Ethernet Port View )
+56 V
OUTPUT
Red
Green
RS232
OR
Red
10 12
ETHERN
ET
SWITCH
LEDs
N Connector
TO GPS ANTENNA
1000 BaseT
+56 V
OUTPUT
14
1000 BaseT
CMM4 CONTROLLER ( Ethernet Port View )
MAC ADDRESS
CAUTION:
Damage my result if non-approved
equipment is connected to powered parts.
IMPORTANT
See the System User Guide before connecting
to power. The Guide is available on-line at
http://motorola.wirelessbroadbandsupport.com/software/
www.motorola.com
P/N: 5487639D03
13
SHIELDED ETHERNET CABLES
GPS
INTERNAL
GPS CABLE
11
Green
+29 V
OUTPUT
DEFAULT
NORMAL
TOGGLE
AUX SYNC
PWR
GND
Twist wire pair 1 twist per inch and
form three loops around ferrite core
for RF emission compliance.
ACCESSORY POWER
OUTPUTS
+20 V
OUTPUT
Red
Green
IP ADDRESS
CMM4 CONTROLLER
PORT 1
PORT 2
PORT 3
PORT 4
PORT 5
PORT 6
PORT 7
PORT 8
PORT 9
PORT 10
PORT 11
PORT 12
PORT 13
PORT 14
PMP320HDW2v1
2-19
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PMP 320 Hardware Installation
Surge Suppression Information
Surge Suppression Information
The AP has 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 lightning strikes.
Up to four 600SSD surge suppressors can be mounted in series on an Ethernet link without
degrading the link. The equivalent of a 600SSD is built into each of the 8 ports on a CMM4 and
counts as one of the four.
As an example, a typical installation might have properly-grounded 600SSD units within 3 ft (1
m) of each AP and additional properly-grounded 600SSD units on each Ethernet cable mounted
outside at the point of cable entry to a telecommunications hut that contains the CMM4.
AP Hardware Installation complete
The AP hardware installation is complete. Refer to the PMP 320 Administration and
Configuration Guide to update software or configure the device.
PMP320HDW2v1
2-19
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AP Hardware Installation complete
Chapter 2: AP Hardware Installation
2-20
JUL 2010
PMP320HDW2v1
Preliminary
Chapter
CMM4 Hardware Installation
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The CMM4 consists of three subsystems:
•
the CMM4 enclosure and controller board
•
power supplies
•
an EtherWAN switch (mounted in the CMM4 enclosure).
PMP320HDW2v1
3-1
Preliminary
JUL 2010
AP Hardware Installation complete
Figure 3-1
Chapter 3: CMM4 Hardware Installation
AP Installation and wiring
AP
Communications Bldg
Cable Tray
BT-0781S-XXX
AP Grounded
to Tower
with 10AWG wire
BT-0781S-XXX
Network
Switch or
Router
CMM4
Drip Loop
600SSD
AC Power
200SSB
Tower Ground
Tower
Earth Ground
SGPN4076
NOTE
•
The L-COM surge suppressor is used if the Gigabit Ethernet port is used in
the CMM4. The L-COM when used is installed either in the CMM4 cabinet, or
installed inside the communications building.
•
This figure shows the GPS near the top of the AP unit. For installation
information about the GPS refer to Installing the GPS Antenna on page 3-7.
•
The AC line cord is not provided with the hardware.
3-2
JUL 2010
PMP320HDW2v1
Preliminary
PMP 320 Hardware Installation
Before you begin
Before you begin
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Ensure that you comply with standard local or national electrical and climbing procedures
when you install the CMM4.
WARNING
Installing a CMM involves electrical power and can involve height and exposure to
RF (Radio Frequency) energy. To avoid personal injury, know and follow applicable
national and local safety regulations and industry best practices, and follow the
specific guidelines in this document
If the CMM4 is being installed on a tower instead of a communications hut, the operator will
have to calculate the wind loading on the tower for the addition of the CMM4.
Avoiding Hazards
Use simple precautions to protect staff and equipment. Hazards include exposure to RF waves,
lightning strikes, and power surges. This section specifically recommends actions to abate
these hazards.
Grounding Equipment
Effective lightning protection diverts lightning current safely to ground, Protective Earth (PE).
It neither attracts nor prevents lightning strikes.
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Grounding Infrastructure Equipment
Chapter 3: CMM4 Hardware Installation
Grounding Infrastructure Equipment
To protect both your staff and your infrastructure equipment, implement lightning protection as
follows:
•
Observe all local and national codes that apply to grounding for lightning protection.
•
Before you install your modules, perform the following steps:
Engage a grounding professional if you have any questions on grounding.
Install lightning arrestors to transport lightning strikes away from equipment. For
example, install a lightning rod on a tower leg other than the leg to which you mount
your module.
Connect your lightning rod to ground.
Plan to use an appropriate surge suppressor on any Ethernet cable at the point where
it enters any building or structure.
•
Install your modules at least 2 feet (0.6 meters) below the tallest point on the tower, pole,
or roof.
Conforming to Regulations
For all electrical purposes, ensure that your network conforms to applicable country and local
codes, such as the NEC (National Electrical Code) in the U.S.A. If you are uncertain of code
requirements, engage the services of a licensed electrician.
In particular, many codes require that wired electrical devices like the 56 VDC power supply
either terminate in a plug connection or be wired with an on/off switch, and not be hard-wired
to AC/mains.
Protecting Cables and Connections
Cables that move in the wind can be damaged, impart vibrations to the connected device, or both.
At installation time, prevent these problems by securing all cables with cable ties, cleats,
or weather-resistant tape.
The cable can be a path for water to follow to enter the cable connector or even the module.
You can prevent this problem by including and securing a drip loop where the cable enters
the module enclosure.
Testing the Components
The best practice is to connect all the components - BHs, APs, GPS antenna, and CMM4 - in
a test setting and initially configure and verify them before deploying them to an installation.
However, circumstances or local practice may require a different practice.
PMP320HDW2v1
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PMP 320 Hardware Installation
Unpacking Components
Unpacking Components
When you receive products, carefully inspect all shipping boxes for signs of damage. If you find
damage, immediately notify the transportation company.
As you unpack the equipment, verify that all the components that you ordered have arrived.
Save all the packing materials to use later, as you transport the equipment to and from
installation sites.
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Installation Overview
Chapter 3: CMM4 Hardware Installation
Installation Overview
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Before beginning the physical installation of the CMM4 hardware make sure the GUI
configuration is completed. Refer to configuration details in the PMP 320 Administration and
Configuration Guide for additional information on the GUI configuration procedures.
The physical installation of the CMM4 includes the following:
•
physically install the CMM on the tower (or near the communications hut)
•
physically install the GPS unit (included with the CMM4, does not have to be ordered
separately)\
•
physically install the surge suppressors
•
cable the following CMM4 components:
GPS
Power
ENET
600SSD surge suppressor
200SB surge suppressor
L-COM surge suppressor (if the Gigabit Ethernet port is in use at this site, the L-COM
must be installed inside the CMM4 unit, or inside the communication’s hut, this
item is never installed out doors)
Earth to ground
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PMP 320 Hardware Installation
Installing the GPS Antenna
Installing the GPS Antenna
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Outside the CMM4 enclosure, the CMM4 requires a GPS antenna and power supply. The GPS
antenna must be installed in an area with clear access for strong signal reception, but does
not need to be mounted high on the tower.
NOTE
Orient the GPS antenna so it has clear access to the southern horizon, up to 20
degrees. Do not install the GPS as the highest object at the site.
Information on GPS cable planning, ordering, and design is covered in GPS Coax Cable on
page 3-8.
The following information describes the recommended tools and procedures to mount the
GPS antenna.
Recommended Tools for GPS Antenna Mounting
The following tools and materials are needed for mounting the GPS antenna:
•
3/8 inch nut driver
•
12 inch adjustable wrench
•
7/16 inch wrench
•
Needle-nose pliers
•
electrical tape for all GPS connections
•
water-tight tape for all GPS connections
Mounting a GPS Antenna
Perform the following procedure to mount a GPS antenna.
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■
GPS Coax Cable
Chapter 3: CMM4 Hardware Installation
Procedure 3-1
Mounting the GPS Antenna
Ensure that the mounting position:
•
has an unobstructed view of the sky to 20º above the horizon.
•
must not be the highest object on the tower. (The GPS antenna does not
need to be particularly high on a site, which would give it more exposure
to lightning. It just needs to have an unobstructed view of the southern
horizon.)
•
is not further than 100 feet (30.4 meters) of cable from the CMM.
Select a pole that has an outside diameter of 1.25 to 1.5 inches (3 to 4 cm) to
which the GPS antenna bracket can be mounted.
Attach the GPS unit to the bracket using 4 screws.
Place the U-bolts (provided) around the pole.
Slide the GPS antenna bracket onto the U-bolts.
Slide the ring washers (provided) onto the U-bolts.
Slide the lock washers (provided) onto the U-bolts.
Use the nuts (provided) to securely fasten the bracket to the U-bolts.
Connect the GPS coax cable to the female N-connector on the GPS antenna.
See the section GPS Coax Cable for additional details on the length and type
of coaxial cable needed.
10
Use water type tape and electrical tape to seal the connector.
GPS Coax Cable
The operator provides the GPS antenna coaxial cable between the CMM4 and the GPS antenna.
It must be engineered to length, and is not included with the CMM4. In most cases, the cable
length from the CMM4 to the GPS antenna must be less than 30 m (~100 ft).
PMP320HDW2v1
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PMP 320 Hardware Installation
GPS Coax Cable
Antenna cables can be ordered from Best-Tronics, Inc., http://best- tronics.com/motorola.htm.
Antenna cables can be ordered in lengths up to 100 ft (30.4 m).
Table 3-1
Cable description
Best-Tronics Part Number
BT-0564
Description
N to N GPS antenna cable
Alternatively, equivalent cables may be procured by the operator, fabricated by the operator in a
depot, or fabricated at site using
•
Up to 100 feet (30.4 meters) of LMR200 coaxial cable
•
2 Times Microwave N-male connectors (Times Microwave P/N TC-200-NM) or equivalent
connectors
NOTE
The CMM4 has a female N-type coax connector on the outside of the enclosure,
whereas the CMM micro has a female BNC-type connector inside the enclosure. Take
this into account when ordering or fabricating cables, and when replacing a CMM
micro with a CMM4.
3-30
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Installing the power supply for the CMM4
Chapter 3: CMM4 Hardware Installation
Installing the power supply for the CMM4
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WARNING
Although the output of the power supply is 29 VDC or 56 VDC, the power rating
classifies the converter as a Class 2 electric device. For this reason, whenever you
work on power in the CMM4, you must first disconnect the DC supply from the AC
power source.
Select the appropriate procedure to install the power supply for the CMM4. Directions are
provided for a 56 VDC power supply and a procedure on how to install the 30 VDC power supply.
If using both 30 VDC and 56 VDC, a 1000 Ohm 5W resistor must be installed across the 30 VDC
+V and GND at the terminal block.
56 VDC Power Supply Installation
Use the following procedure to install a 56 VDC power supply for the CMM4.
Procedure 3-2
Installing a 56 VDC Power Supply for the CMM4
Install the CMM4 power supply in a hut, wiring closet, or weatherized
NEMAapproved enclosure. It is designed for extreme temperatures but it is
imperative to keep moisture away from the power converter.
Do not install the power supply within the CMM4 enclosure as it will increase
the heat within the enclosure to an unacceptable level. The CMM4 enclosure
is large to provide surface area for heat dissipation without the use of forced
convection fans, not to provide space for additional high-power electronics.
For the DC side of a 56 VDC power supply, engineer the DC cable, selecting
the wire gage from Table 4-1. Use either UV-resistant cable or shield the
cable (as in a conduit) from UV rays.
Connect the DC cable on the top of the connector. Insert the +V lead into
the terminal 7 cage clamp and insert the GND (ground/return) lead into the
terminal 4 cage clamp. To insert a lead into a cage clamp, insert a thin-blade
screwdriver in the secondary cage clamp hole and lever the screwdriver away
from the main cage clamp hole.
Continued
PMP320HDW2v1
3-31
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PMP 320 Hardware Installation
56 VDC Power Supply Installation
Procedure 3-2
Installing a 56 VDC Power Supply for the CMM4 (Continued)
Output
AUX 1
IN
AUX 2
- + +
+ +
power -one-
convert
Input
select
OUT
Output
AUX 1
AUX 2
+ + - + - -
NOTE
AC connection on top, DC on bottom.
For the AC side of a 56 VDC power supply, connect an AC cable to the power
supply using Ground/protective earth, Neutral (N), and Line (L). To insert a
lead into a cage clamp, insert a thin-blade screwdriver in the secondary cage
clamp hole and lever the screwdriver away from the main cage clamp hole.
Input
The AC line cord is not provided with the hardware.
Terminate the other end of the AC cable to a country-specific AC connector or
wire to a switch in accordance with local electrical codes.
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30 VDC Power Supply Installation
Chapter 3: CMM4 Hardware Installation
30 VDC Power Supply Installation
If the PMP 320 will be co-located with PMP 100 equipment on the same CMM4, refer to the
Cluster Management Module 4 User Guide at http://motorola.wirelessbroadbandsupport.com/
for additional information on how to install the 30 VDC power supply, and the 1000 Ohm 5 W
resistor that must be installed along with that power supply.
PMP320HDW2v1
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PMP 320 Hardware Installation
Surge Suppressors
Surge Suppressors
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The outdoor mounting of the CMM4 requires the 600SSD, 200SSB, and in certain cases the
LCOM surge suppressor. The L-COM surge suppressor is used only if the Gigabit Ethernet port
is being used on the CMM4 switch. The L-COM surge suppressor can be installed in the CMM4
unit. The overall installation instructions are as follows:
•
ground the 600SSD and the 200SSB to Earth Ground
•
connect the protected side of the 200SSB to the AC power supply SGPN4076
•
connect the protected side of the 600SSD to the network switch or router in the
communications hut.
•
add drip loops at any point in the cabling where the cable changes direction.
NOTE
Additional L-COM considerations during installation: if the CMM4 unit is mounted on
the antenna and is located more that three feet away from the communications hut,
an additional L-COM surge suppressor must be installed.
Figure 3-2
600SSD surge suppressor connectors
Surge Suppressor
All cables must exit
through the allocated slots
600SSD and 200SSB Surge Suppressor installation
Use the following procedure to install the 600SSD and the 200SB surge suppressors.
3-34
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L-COM Surge Suppressor installation
Chapter 3: CMM4 Hardware Installation
CAUTION
Observe caution when drilling through the wall of the building. Ensure that there are
no power lines, gas lines, water lines, or data lines in the wall at the desired location
where the drilling takes place.
Procedure 3-3
Surge suppressor installation and cable connections
Attach the surge suppressor to the communication hut near the cable access
point to the inside of the communications hut using two screws.
Remove the surge suppressor front cover to access the Ethernet RJ-45 jacks.
Connect the Ethernet cable from the CMM4 to the Ethernet port on the surge
suppressor port.
CAUTION
Follow local building codes for penetrating buildings. Observe
caution when drilling through the wall of the building. Ensure that
there are no power lines, gas lines, water lines, or data lines in
the wall at the desired location.
Drill a 3/4 inch (18 mm) hole through the wall of the communications hut at
the desired location.
Connect the Ethernet cable from the network or switch router from the
communications hut to the Ethernet port on the 600SSD surge suppressor.
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 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.
Ground the surge suppressor to Earth Ground.
Install the surge suppressor front cover to the base of the unit ensuring that
the cables are all routed through the cable slots.
L-COM Surge Suppressor installation
The L-COM surge suppressor is used only when the Gigabit Ethernet port is used on the CMM4
switch. The L-COM must be installed inside the CMM4 unit, or inside the communication’s hut,
this item is never installed outdoors.
PMP320HDW2v1
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PMP 320 Hardware Installation
Figure 3-3
L-COM Surge Suppressor installation
L-COM surge suppressor
2X Grounding
Lugs and Terminals
2X
RJ45 Jacks
Lockable
Hinged Cover
2X Cable
Grommets
Procedure 3-4
L-COM surge suppressor installation
Determine whether the L-COM surge suppressor will be installed inside the
CMM4 unit or outside the unit.
Remove the front cover of the surge suppressor to access the Ethernet RJ-45
jacks.
If the unit is installed:
•
inside the CMM4 unit, continue to step 4.
•
outside the CMM4 unit in the communications hut, continue to step 8.
Place the L-COM surge suppression unit inside the CMM4 housing. Be careful
not to place the surge suppressor in the unit as to crush any cables in the
CMM4 unit or cables going through the cable glands.
Connect the Gigabit Ethernet connection from the CMM4 to the L-COM
Ethernet connector.
Connect the Ethernet cable from the L-COM surge suppressor and feed the
cable through the cable gland on the CMM4 and connect to the switch in the
communications hut.
Connect the Earth Ground on the surge suppressor to the Earth Ground in the
CMM4 cabinet, continue to step 13.
Install the L-COM surge suppressor inside the communications hut using
two screws.
Connect the Gigabit Ethernet cable to the Ethernet cable connection in the
L-COM surge suppressor.
10
Connect the Ethernet cable from the surge suppressor to the switch in the
communications hut.
Continued
3-36
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L-COM Surge Suppressor installation
Procedure 3-4
Chapter 3: CMM4 Hardware Installation
L-COM surge suppressor installation (Continued)
11
Connect the Ethernet cable from the CMM4 to the Ethernet port on the surge
suppressor port.
12
Connect the surge suppressor to the Earth Ground.
13
Place the cover on the L-COM unit and attach the L-COM cover.
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PMP 320 Hardware Installation
Installing the CMM4
Installing the CMM4
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Install the CMM4 outside only when temperatures are above –4° F (–20° C). The gland openings
and the bushings and inserts in the gland openings are rated for the full –40° to +131° F (–40°
to +55° C) range of the CMM4. However, for dynamic operations (loosening, tightening, and
inserting), they are compliant at, and rated for, only temperatures at or above –4° F (–20° C).
For more information about configuring the CMM4 device, refer to the Cluster Manager Module
4 User guide located at: http://motorola.wirelessbroadbandsupport.com/software/.
When performing the installation of the CMM4 unit, remember to:
•
install the CMM4 outside the communications hut whenever possible.
•
do not mount the power supply inside the CMM4 enclosure.
•
use 200SS for all the DC cables powering the CMM4.
•
label all the CMM4 connections.
•
do not accidentally toggle the default switch on the CMM4 during installation.
•
use the provided glands for all connections for the CMM4.
•
Use drip loops at all the transition points on all cables.
•
Ensure that the pin 4 selector in the surge suppressor is set isolated (factory default).
•
Connect the ground bolt on the CMM4 to the Earth Ground.
•
Run the redundant power supplies on different paths
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Installing the CMM4
Chapter 3: CMM4 Hardware Installation
Figure 3-4
CMM4 unit opened showing connection details
Cable Gland
Cable Housings
Cabling Diagram on
Inside of Front Door
Prizm and Wireless Manager treat the EtherWAN Switch in a CMM4 as a generic switch. For
Prizm or Wireless Manager to correctly associate each EtherWAN Switch with its CMM4:
•
before you install the CMM4, read and note the MAC address of both the CMM4 controller
and EtherWAN switch from the physical units.
•
after you discover a CMM4 and its switch, use these MAC addresses for moving the
switch to the place in your Prizm or Wireless Manager network view where the CMM4
was discovered.
•
always maintain a record that associates these two MAC addresses.
CAUTION
When an EMS discovers an EtherWAN switch in your network, it can’t tell which CMM4
the switch is associated with, nor can it tell CMM4 EtherWAN switches from any other
EtherWAN switches you may have in your network. The pair of MAC addresses you
record directly from the CMM4 and its EtherWAN switch are the only means for you to
establish the logical connection.
Perform the following procedure to install the CMM4.
PMP320HDW2v1
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PMP 320 Hardware Installation
Procedure 3-5
Installing the CMM4
Installing the CMM4
Ensure that the mounting position:
•
is not farther than 328 feet (100 meters) from the furthest AP or BH
that the CMM4 will serve.
•
is not closer than 10 feet (3 meters) to the nearest AP or BH.
•
is not further than 100 feet (30.5 meters) of cable from the intended
mounting position of the GPS antenna.
•
allows the doors to open fully open for service.
Select a support structure to which the flanges can be mounted.
If the support structure is:
•
a wall, use screws or bolts (neither is provided) to attach the flanges
to the wall.
•
an irregular-shaped object, use adjustable stainless steel bands
(provided) to attach the CMM4 to the object.
•
a pole that has an outside diameter of 1.25 to 3 inches (3 to 8 cm), use a
toothed V-bracket (provided) to attach the V-bracket to the pole. Then
attach the CMM4 flanges to the V-bracket.
If the CMM4 is mounted to a non-conducting structure (cinder block wall, for
example) or there is any doubt as to a good ground through the structure,
run a 10 AWG ground cable from one of the Ground/Earth terminations of
one of the terminal blocks inside the CMM4, through a cable gland, and to
known good ground.
3-40
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Cabling a CMM4
Chapter 3: CMM4 Hardware Installation
Cabling a CMM4
Figure 3-5
CMM4 connection diagram located on the door of the unit
Black
TOTAL 20 VDC
ACCESSORY POWER
IS NOT TO EXCEED
20 WATTS.
EtherWAN Switch
( Power Port View )
Short wire to ChassisGround
at Switch mounting screw
for RF emission compliance.
NOTE:
Refer to the System User Guide for
the power requirement of the switch
specific to the switch part number.
+20 V
OUTPUT
GND (Black)
REDUNDANT
+V (Red)
GND GND +V GND
+V GND
REDUNDANT
+29 V
+29 V
INPUT
GND +V
+56 V
+56 V
INPUT
INPUT
INPUT
+V
GND
+V GND
+V GND PE
EXTERNAL
PROTECTIVE EARTH
GROUND
CMM4 CONTROLLER ( Power Port View )
+29 V
OUTPUT
POWER
DEFAULT
GPS_M
ETHERNET PWR
ACTIVITY
LINK
SYNC OK
EtherWAN Switch
( Ethernet Port View )
+56 V
OUTPUT
Red
Green
RS232
OR
Red
10 12
ETHERN
ET
SWITCH
LEDs
N Connector
TO GPS ANTENNA
1000 BaseT
+56 V
OUTPUT
14
1000 BaseT
CMM4 CONTROLLER ( Ethernet Port View )
MAC ADDRESS
CAUTION:
Damage my result if non-approved
equipment is connected to powered parts.
IMPORTANT
See the System User Guide before connecting
to power. The Guide is available on-line at
http://motorola.wirelessbroadbandsupport.com/software/
www.motorola.com
P/N: 5487639D03
13
SHIELDED ETHERNET CABLES
GPS
INTERNAL
GPS CABLE
11
Green
+29 V
OUTPUT
DEFAULT
NORMAL
TOGGLE
AUX SYNC
PWR
GND
Twist wire pair 1 twist per inch and
form three loops around ferrite core
for RF emission compliance.
ACCESSORY POWER
OUTPUTS
+20 V
OUTPUT
Red
Green
IP ADDRESS
CMM4 CONTROLLER
PORT 1
PORT 2
PORT 3
PORT 4
PORT 5
PORT 6
PORT 7
PORT 8
PORT 9
PORT 10
PORT 11
PORT 12
PORT 13
PORT 14
PMP320HDW2v1
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PMP 320 Hardware Installation
Cabling a CMM4
Perform the following procedure to cable the CMM4.
Procedure 3-6
Cabling the CMM4
Review the diagram inside the door of the CMM4. Refer to Figure 3-5.
The inserts in the gland openings of the CMM4 have precut holes.
Route Ethernet cables through the cable gland connectors to the Ethernet
ports inside the CMM4 cabinet (see the grey cables in the illustration).
Stagger the cables as shown in the figure to make it easier to feed them
through the gland.
Continued
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Cabling a CMM4
Chapter 3: CMM4 Hardware Installation
Procedure 3-6
Cabling the CMM4 (Continued)
Stagger the cables as shown in the figure to make it easier to feed them
through the gland.
Connect Ethernet cables as follows:
•
APs, BH10s, or BH20s (PTP 100 Series bridges): cable to powered
ports of the controller board. The controller board provides sync, power,
and surge suppression for these connections. If the CMM4 is mounted
inside a building or communications hut, a Motorola 600SSD surge
suppressor (model number 600SSC or later) should be mounted outside
the building or communications hut on each line at the point of cable
penetration to prevent overvoltages and over-currents from entering the
building and potentially damaging other electronic equipment.
•
Terrestrial feeds under 100 Mbps (10/100BaseT): cable to an
unpowered port of the controller board. The controller board provides
surge suppression for these connections. If the CMM4 is mounted inside
a building or communications hut, a Motorola 600SSD surge suppressor
(model number 600SSC or later) should be mounted outside the building
or communications hut on each line at the point of cable penetration to
prevent over-voltages and over-currents from entering the building and
potentially damaging other electronic equipment.
•
Terrestrial feeds over 100 Mbps (1000BaseT Gigabit Ethernet):
cable directly to the Gigabit port of the EtherWAN switch, and mount a
Motorola PTP-LPU lightning protection unit or equivalent within 3 ft (1 m)
of the CMM4 if the CMM4 is located outdoors on the outside of the
building or communications hut at the point of cable penetration if the
CMM4 is located indoors.
•
PTP 400 Series bridges: cable to an unpowered port of the controller
board. If the CMM4 is inside a building or communication hut, install
the bridge’s PIDU (Powered InDoor Unit) also inside the building, and
install a Hyperlink Technologies AL-CAT6HP-JW surge suppressor (only
needed in special cases) or equivalent on the outside of the building or
communications hut at the point of cable penetration. If the CMM4 is
Continued
PMP320HDW2v1
3-43
Preliminary
JUL 2010
PMP 320 Hardware Installation
Procedure 3-6
LED indicators
Cabling the CMM4 (Continued)
mounted outside, locate the PIDU in a weather-tight enclosure within 3 ft
(1 m) of the CMM4 and install a Hyperlink Technologies AL-CAT6HP-JW
surge suppressor or equivalent within 3 ft (1 m) of the PIDU.
•
PTP 500 and 600 Series bridges: cable directly to the Gigabit
port of the EtherWAN switch. If the CMM4 is inside a building or
communication hut, install the bridge’s PIDU (Powered InDoor Unit) also
inside the building, and install a Hyperlink Technologies AL-CAT6HP-JW
surge suppressor or equivalent on the outside of the building or
communications hut at the point of cable penetration. If the CMM4 is
mounted outside, locate the PIDU in a weather-tight enclosure within 3 ft
(1 m) of the CMM4 and install a Hyperlink Technologies AL-CAT6HP-JW
surge suppressor or equivalent within 3 ft (1 m) of the PIDU.
On the door label, record the MAC and IP addresses of the CMM4 and all
connected equipment.
Record also the MAC address of the EtherWAN switch.
Consistent with practices in your company, note the above information to add
later to the company equipment database.
Connect the coax cable from the female N-connector on the GPS antenna to
the female N-connector on the outside of the CMM4.
10
Ensure there is an Ethernet cable between the management port on the
controller board and one of the Ethernet ports on the EtherWAN switch.
11
Feed the DC power cord through a cable gland. A 1-hole gland insert is
provided, as the DC power cable is too thick to share a gland with other
cables. The 1-hole insert is either connected to one of the patch cables or
included in the parts bag.
12
Connecting power to the terminal block:
13
•
For 29 V: Connect the white wire to +29V on either of the 29 VDC
terminal blocks. Connect the black wire to −V (GND) on the same 29
VDC terminal block.
•
For 56V: Connect the black and white wire to +56V on either of the 56
VDC terminal blocks. Connect the black wire to –V (GND) on the same
56 VDC terminal block.
Plug the DC power supply into an AC receptacle (AC mains).
NOTE
The AC line cord is not provided with the hardware.
14
Verify that the LEDs light.
LED indicators
The indicator LEDs color indicates position, but not the state. For example, the red Power
LED, in the left most position, lights when power is applied to the unit, but does not change
color at any point.
3-44
PMP320HDW2v1
Preliminary
JUL 2010
Power Faults
Chapter 3: CMM4 Hardware Installation
Table 3-2
LED Indicators for the CMM4
LED Color
Item
Red
Power
Amber
Default
Green
GPS Master
Red
Ethernet Switch Power
Amber
Link
Green
Activity
Amber
Sync OK
CAUTION
Surge suppressors should be installed on any cables where they enter a building to
reduce the possibility of over voltages or over currents damaging any equipment in
the building.
The following equipment, mounted outside of a communications hut or building at the point
where the cables penetrate the building, is recommended:
•
Motorola 600SSD surge suppressors for Ethernet cables
•
Motorola 200SS surge suppressors for DC cables
•
A PolyPhaser DGXZ+06NFNF-A surge suppressor for the coaxial cable from the GPS
antenna
Power Faults
If excessive current is drawn on a port, the analog circuitry reports a PoE fault. The system then
turns the port power off. The power will be restored when the fault is removed. The following
illustration shows the port status screen with a power fault on port 1.
PMP320HDW2v1
3-45
Preliminary
JUL 2010
PMP 320 Hardware Installation
Figure 3-6
Configuring CMM4 ports
Port Status Showing Power Fault
Configuring CMM4 ports
To configure the ports that have been connected in this installation procedure, refer to the
CMM4 User Guide located at: http://motorola.wirelessbroadbandsupport.com/software/ .
Other Installation Considerations
If two CMM4 devices are synchronized together, the CMM4 that does not have a GPS needs
to be set up via the GUI as a CMM slave device. Refer to the CMM4 User guide located at :
http://motorola.wirelessbroadbandsupport.com/software/ .
Preliminary
JUL 2010
Other Installation Considerations
Chapter 3: CMM4 Hardware Installation
3-26
PMP320HDW2v1
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PMP320HDW2v1
3-47
Preliminary
Chapter
Cables
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DC Cables
Chapter 4: Cables
DC Cables
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Motorola recommends the use of flame-retardant, moisture and sunlight-resistant cable rated
to 75° C wet and bendable at -25° C for the DC cable between the power supply(s) and the
CMM4. Examples of such cable include General Cable (http://www .generalcable.com ), catalog
number 234580 for 12 AWG cable and catalog number 236300 for 10 AWG cable, found in
the Telecommunications Catalog.
Recommended wire size for the DC cable of the CMM4 in most systems is shown in Table 4-1.
These wire sizes support up to 8 radios (30 VDC or 56 VDC radios) at up to 100 m (328 ft)
Ethernet cable length from the CMM4.
Table 4-1
Wire size for CMM4 DC cable
DC Power Cord Length
Wire Gage
Up to 90 ft (3−25 m)
12 AWG (4 mm2)
91−145 ft (26−45 m)
10 AWG (6 mm2)
146−230 ft (46−70 m)
8 AWG (10 mm2)
For supporting 8 PMP 54400 APs or PTP 54200 BHs (which are 12 W 30 VDC radios), reduce
either the maximum DC cable length or the Ethernet cable length by half. For example, if the
Ethernet cable length from CMM4 to 8 PMP 54400 APs is 50 m (164 ft) or less, the DC lengths
in Table 4-1 can be used. If the Ethernet cable length from CMM4 to 8 PMP 54400 APs is 100 m
(328 ft), then halve the lengths shown in Table 4-1.
4-2PMP320HDW2v1
JUL 2010
3-49
PMP320HDW2v1
Preliminary
PMP 320 Hardware Installation
Ethernet Cables
Ethernet Cables
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The operator provides the Ethernet cables between the CMM4 and the radios it supports. They
must be engineered to length and are not included with the CMM4. The cable length from the
CMM4 to any radio must be under 100 m (328 ft).
Cables are available from Best-Tronics, Inc., http://best-tronics.com/motorola.htm. These cables
can be ordered in lengths up to 328 ft (100 m) and are listed in the following tables.
Table 4-2
Recommended Ethernet Cables
Typical Use
Best-Tronics Part Number
Description
Infrastructure Ethernet
cable
BT-0781S-XXX
RJ-45 to RJ-45 straight,
shielded, UV-resistant
Ethernet cable using outdoor
STP Cat 5e cable, lower cost
than plenum-rated, available
only in black.
Infrastructure Ethernet
cable for plenums
BT-0562S-XXX
RJ-45 to RJ-45 straight,
shielded, UV-resistant,
plenum-rated Ethernet cable
using outdoor STP Cat 5e
cable, available in beige,
blue, grey, or white.
NOTE
Shielded Ethernet cable is strongly recommended for AP and BH installations.
Alternatively, equivalent cables may be procured by the operator, fabricated by the operator in a
depot, or fabricated at site. The modules have auto MDX/MDIX and so either straight-through
or crossover Ethernet cables may be used. Pinouts for straight-through cables are shown
the following figures.
4-50
PMP320HDW2v1
Preliminary
JUL 2010
Ethernet Cables
Chapter 4: Cables
Figure 4-1
Table 4-3
RJ-45 Straight-through connections
Recommended Ethernet Cables
Pin
Color
white / orange
orange
white / green
blue
white / blue
green
white / brown
brown
Figure 4-2
Pin 1 Location diagram
←
P in 1
Lo c k t a b
underneath)
Bulk unterminated Ethernet cable can be ordered from Best-Tronics as bulk cable:
•
CA-0287S: (shielded, plenum rated)
•
CA-0367S: (lower cost, shielded, non-plenum-rated)
PMP320HDW2v1
4-51
Preliminary
JUL 2010
PMP 320 Hardware Installation
CMM Sync Cable
CMM Sync Cable
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Two CMMs (two CMMmicros, two CMM4s, or a CMMmicro and a CMM4) can be connected
together with a CMM sync cable to provide either
•
The ability to have one GPS antenna support two CMMs
•
Warm spare redundant sync
Pinouts for the CMM sync cable are shown in the following figures. Figure 4-4 shows the
location of Pin 1, relative to the lock tab on the connector.
NOTE
The CMM sync cable used to connect two CMMs for sync purposes has different
pinouts than the straight-through sync cable used to connect a “remote AP” to an SM,
or an AP or BHM to a CMM2.
4-52
PMP320HDW2v1
Preliminary
JUL 2010
CMM Sync Cable
Chapter 4: Cables
Figure 4-3
CMM sync cable pinouts
Figure 4-4
CMM sync cable pinouts
←
Pin 1
(Lock tab is on other side)
PMP320HDW2v1
4-53
Preliminary
JUL 2010
Chapter
CSM Hardware Installation
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This chapter provides the instructions and procedures used to:
•
connect the CSM device to a pole or wall
•
pre-power up alignment for level of service connection
•
cable the unit
•
ground the unit
•
add surge suppression
•
post power up connection
•
IP connectivity alignment correction
CAUTION
The orientation of the CSM when installed is important. The face of the CSM with the
Motorola logo must be pointing in the direction of the antenna facing outwards from
the building. The Ethernet connector must be oriented so it is on the bottom
right corner of the CSM.
Figure 5-1
Canopy
CSM (CPE) 320 Identification
CSM 320
Ethernet Connector
Front
Rear
PMP320HDW2v1
JUL 2010
5-1
Preliminary
Before you begin
Chapter 5: CSM Hardware Installation
Before you begin
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This section describes items that the installer or subscriber must purchase before installing the
CSM. This section also describes items that must be available and points to consider before
beginning the CSM installation.
Additional material required for installation
The additional materials required for installation are as follows:
•
The computer of the subscriber must be equipped with an Ethernet network interface
card (NIC).
NOTE
The NIC is not provided with the CSM, but subscribers can purchase a NIC at
most computer and electronics stores.
•
An RJ–45 Ethernet cable to connect the CSM plug-in power supply to the computer.
•
Ground wire of sufficient length to run between the CSM and the home ground point.
NOTE
•
It is recommended that the ground wire be a 6 AWG, solid copper wire.
•
It is recommended that if a ground rod is used it should be an 8 ft (2.5m)
copper rod.
•
Most buildings have an existing ground rod outside, at the main power
connection site. If desired, a rod can be installed into the ground outside
the building after consulting the local electrical codes.
•
The AC line cord is not provided with the hardware. Acquire the
appropriate power line cord for the country where the unit is installed.
•
Lead screw anchors if the CSM is mounted on a brick or masonry surface.
•
Outdoor-rated category 5e Ethernet cable to connect the CSM plug-in power supply
through the building wall to the CSM.
•
RJ–45 plug connectors and the tools required for field termination of the category 5e cable
•
Grommet to cover a 3/4 inch. (18 mm) hole
•
Silicone or acrylic caulking
5-2
PMP320HDW2v1
Preliminary
JUL 2010
PMP 320 Hardware Installation
Pre-installation planning
Pre-installation planning
While on the ground, find an appropriate location outside the building to mount the CSM.
NOTE
To provide Internet service, the CSM communicates with a base station on the
communications tower of the service provider. Information about the nearest
communications tower is provided by the service provider. For example, if the tower
nearest to the building is towards the north of the building, install the CSM on the
north side of the building.
After determining the optimal side of the building, select an CSM mounting point at a high location is
unlikely to be touched by user/passer on the building such as under the eaves.
Components shipped with the CSM
Locate the components shipped with the CSM device. The parts list for the CSM installation
consists of the following items:
Table 5-1
CSM parts list
Component
Quantity
CSM 320 device (vertical)
Bracket base mounting
Bracket Bottom Mounting
Bracket Top Mounting
Middle mounting bracket
M8 (50 mm) hex head bolt
M8 (100 mm) bolt
M8 split washer
13
M8 washer
11
M8 nut
M5 (35 mm) set screw
M4 (16 mm) bolt
M4 split washer
M4 washer
Dsign power supply
ENET cable
PMP320HDW2v1
5-3
Preliminary
JUL 2010
Cabling Overview
Chapter 5: CSM Hardware Installation
Figure 5-2
CSM components
M8 x 50 MM Bolt
M8 Split Washer
M8 Washer
CSM320
M5 Set Screw 35MM
M8 Split Washer
M5 Set Screw 35MM
M8 Split Washer
M8 x 50 MM Bolt
M8 Split Washer
M8 Washer
Bracket
Bottom Mounting
Bracket
Top Mounting
Bracket Base Mounting
4X M4 x 16MM Bolt
Middle
4X M4 Split Washer
Mounting bracket
4X M4 Washer
M8 Nut
M8 Split Washer
M8 Washer
2X M8 x 100 MM Bolt
2X M8 Nut
4X M8 Split Washer
4X M8 Washer
Mounting Pole
(Reference)
Cabling Overview
The following items are not supplied with the system:
•
Ground wire
•
Grounding rod
•
Outdoor power/Ethernet cable
•
Ethernet cable
•
Computer NIC
Figure 6-4 illustrates the routing of the ground wire, the category 5e Ethernet cable, and the
CSM power/Ethernet cable.
5-4
PMP320HDW2v1
Preliminary
JUL 2010
PMP 320 Hardware Installation
Figure 5-3
Cabling Overview
CSM mounted to a wall
Building’s Roof
CPE Bracket
assembly attached to
building's exterior
Subscriber’s
Computer
CPE Power/Ethernet
cable
Building’s wall
Dsine
Surge
Suppressor
Ground wire
(not supplied)
Ethernet cable
(not supplied)
PMP320HDW2v1
to household
grounding point
5-5
Preliminary
JUL 2010
Installing the CSM
Chapter 5: CSM Hardware Installation
Installing the CSM
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This section describes how to find an appropriate installation location for the CSM, and how
to install the CSM on the building.
Selecting a location for the CSM
Determine the optimum installation location for the CSM before physically mounting the CSM
to the building.
Most often, if the CSM is mounted on the side of the building facing the base station of the
service provider, the CSM can detect adequate signal to provide high-speed Internet access.
However, unless there is an obvious line of sight to the correct base station, the correct
orientation of the CSM is often not apparent. There may also be practical reasons why the CSM
cannot be mounted on the side of the building that faces the base station.
Procedure 5-1
Selecting an installation location for the CSM
Using a laptop and a temporary power source connected to the CSM
locate the optimal site for the CSM to be installed. Refer to the PMP
320 Administration and Configuration Guide for
additional information on accessing the CSM GUI and
status settings.
htt //
i l
db
t/lib
/?
1&
Start by pointing the front of the CSM in the direction that is most likely to
be optimal.
Try pointing the CSM in different directions. If required, perform this
task while standing in the upper stories or on the roof of the building. At
each elevation and in each direction the CSM is pointed.
After determining the place where the best signal can be detected using
the CSM GUI screen information, choose a corresponding CSM installation
location on the building.
=8
NOTE
The CSM can be mounted either directly on the building or on a
pole.
5-6
PMP320HDW2v1
Preliminary
JUL 2010
PMP 320 Hardware Installation
Installation Overview
Installation Overview
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After finding the best installation location on the building, perform the following procedure
to install the CSM.
Procedure 5-2
Installing the CSM
Complete the mounting bracket assembly; leave the screws on the bracket
arm slightly loose. If the screws are too tight, the vertical and horizontal tilt
of the CSM cannot be adjusted later.
NOTE
If fastening the CSM to a pole, add the pole clamp to the assembly.
Otherwise, set the pole clamp aside.
Perform one of the following:
1.
If attaching the CSM to the side of a building, attach the CSM to the
building using the wall bracket of the bracket assembly.
2.
Mount the CSM to a pole using the wall bracket and pole clamp of the
bracket assembly.
Adjust the vertical and horizontal tilt of the CSM so that it can obtain the
best signal.
Fully tighten the bracket assembly into the desired position.
Completing the mounting bracket assembly
Perform the following procedure to complete the mounting bracket assembly.
Figure 6-3 to reference the brackets and the assembly of the brackets.
Procedure 5-3
Refer to
Mounting bracket assembly
Attach one end of the bracket arm to the arch on this wall bracket.
Insert a 5/16×1½ hex bolt into the arch of the wall bracket that was attached
to the CSM in step 1. Ensure that the head of the medium hex bolt rests
inside the bolt jam of the arch.
Guide the rest of the bolt through the arch of the wall bracket.
Slide a tooth lock washer on the end of the hex bolt.
Align the hole on one tab of the bracket arm with the end of the bolt.
Continued
PMP320HDW2v1
5-7
Preliminary
JUL 2010
Attaching the CSM and mounting the bracket assembly outside the building
Procedure 5-3
Chapter 5: CSM Hardware Installation
Mounting bracket assembly (Continued)
Slide the bracket arm tab onto the bolt, and then place a flat washer over the
end of the bolt.
Tighten the end of the bolt with a hex nut. Leave the hex nut loose enough so
that the vertical tilt of the CSM can be adjusted later.
Attach the other end of the bracket arm to the second wall bracket.
Insert a 5/16×1½ hex bolt into the arch of the second wall bracket. This
bracket is attached to the wall or clamped to a pole.
NOTE
Ensure that the head of the hex bolt rests inside the bolt jam found
on the arch. When the assembly is complete, ensure that the bolt
jam is facing the ground.
10
Guide the rest of the bolt through the arch of the wall bracket.
11
Slide a tooth lock washer at the end of the hex bolt.
12
Align the hole on the tab of the bracket arm with the end of the bolt.
13
Slide the tab of the bracket arm onto the bolt, and then place a flat washer
over the end of the bolt.
14
Tighten the end of the bolt with a hex nut. Leave the hex nut loose enough so
that the horizontal tilt of the CSM can be adjusted later.
15
If fastening the CSM to a pole, loosely attach the clamp to wall bracket 2.
Perform the steps listed in the section Fastening the CSM and mounting the
bracket assembly to a pole.
Attaching the CSM and mounting the bracket assembly outside
the building
WARNING
Maintain a safe distance from RF exposure at least 120 cm when installing the CSM to
the subscriber building. Maintain safe distances from power lines.
Perform the following procedure to attach the CSM to the outside of the building.
5-8
PMP320HDW2v1
Preliminary
JUL 2010
PMP 320 Hardware Installation
Procedure 5-4
building
Fastening the CSM and mounting the bracket assembly to a pole
Attaching the CSM and mounting the bracket assembly outside the
Where possible, install the CSM on the side of the building that has the
greatest exposure to the communications tower of the service provider. The
service provider can provide information about tower locations that can
provide the CSM with the greatest signal exposure.
Drill holes into the exterior wall of the building where the CSM must be hung.
•
Drill the two top holes 2.5 inches apart. Drill the bottom holes 2.5 inches
below the top holes.
•
If possible, drill one upper hole and its corresponding lower hole into a
stud. Do not allow the CSM to be supported by the siding of the building.
•
If installing the CSM on a brick or masonry surface, use appropriate
anchors.
CAUTION
Observe caution when drilling through the wall of the building. Ensure
that there are no power lines, gas lines, water lines, or data lines in
the wall at the desired location where the drilling takes place.
After the holes are drilled into the building, drive the screws through the
holes on the wall bracket and into the building. While attaching the bracket
assembly to the wall, ensure that the bottom of the CSM is pointing towards
the ground. The bottom of the CSM is the side with the five lights and the
grounding lug. The CSM must be installed vertically.
Fastening the CSM and mounting the bracket assembly to a pole
If fastening the CSM to a pole, add the pole clamp to the assembly. Perform the following
procedure to fasten the CSM to a pole.
Procedure 5-5
Fastening the CSM and mounting the bracket assembly to a pole
Insert the following through the holes on the clamp:
•
Large hex bolt
•
Large split washer
•
Large washer
Place the clamp around the pole.
Align the screw assembly with the center holes on the wall bracket.
Tighten the clamp so that the bracket assembly and the attached CSM are
tight on the pole.
PMP320HDW2v1
5-9
Preliminary
JUL 2010
Aligning the CSM for best signal strength
Chapter 5: CSM Hardware Installation
Aligning the CSM for best signal strength
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NOTE
This alignment procedure assumes that the installer has reviewed the site
interference values collected for the area of the installation.
The bolts connecting the two pole/wall brackets to the bracket arm are not yet fully tightened.
Hence, use the bracket arm to adjust the vertical and horizontal tilt of the CSM. This adjustment
helps the CSM to obtain the strongest signal from the service provider.
Perform the following procedure to adjust the vertical and horizontal tilts of the CSM.
Procedure 5-6 Adjusting the vertical and horizontal tilt of the CSM for level of
service connection
Temporarily apply power to the CSM to adjust the CSM for signal strength.
NOTE
Do not connect to the consumer computer at this time.
The AC line cord is not provided with the hardware. Acquire the
appropriate power line cord for the country where the unit is installed.
Connect an Ethernet cable to the CSM and to a laptop.
Log into the CSM GUI application to view the status of the signal strength of the
CSM unit. Enter the following default user name and password IDs:
•
Login ID - operator
•
Password - wimax
Adjust the CSM by rotating the CSM to the left and right. Find the position of the
CSM where the CSM GUI indicates the strongest signal strength to the unit. Verify
the signal strength on the status page of the CSM GUI screen.
Continued
5-10
PMP320HDW2v1
Preliminary
JUL 2010
PMP 320 Hardware Installation
Aligning the CSM for best signal strength
Procedure 5-6 Adjusting the vertical and horizontal tilt of the CSM for level of
service connection (Continued)
After finding the strongest signal from the service provider, tighten all the bolts on
the mounting bracket assembly. Once the screws are tightened, the CSM will no
longer move sideways, nor up and down.
Log out of the CSM GUI once optimal signal strength is achieved.
After completing the alignment and mounting of the CSM on the outside of the building,
proceed with the installation procedures for the subscriber Ethernet, surge suppression, and
unit Earth Grounding procedures.
PMP320HDW2v1
5-11
Preliminary
JUL 2010
Connecting the CSM to the Ethernet cable, Earth Ground, the Surge Suppressor
Chapter 5: CSM Hardware Installation
Connecting the CSM to the Ethernet cable, Earth
Ground, the Surge Suppressor
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Ethernet Cable Assembly
Before installing the CSM Ethernet cable, ensure that the Ethernet cable is constructed with the
weather protection kit that is contained with the CSM device. Use Figure 6-6 to construct the
weather protection housing around the Ethernet cable and RJ-45 plug. This weatherized cable
connects to the ENET connector of the CSM.
Figure 5-4
Ethernet cable weather protection assembly
Strip cable
sheath.
Insert the screw nut into
the
housing.
Insert the seal at the back
end of the housing.
7.7
Recommended wire Gauge: 24AWG
Insert the cable all the
way
through.
Seal
Screw Nut
Crimp the RJ45 plug.
Insert the plug into the
housing. Then secure the
sealing nut in place.
Crimp the
RJ45 plug
Plug
Cable
Strick the gasket on
the
front end of the housing.
Parts Identification
Seal
RJ45 Plug
Gasket
Screw Nut
Screw Nut
Housing
Gasket
Perform the following procedure to connect the Ethernet/power cable to the CSM.
5-12
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Preliminary
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PMP 320 Hardware Installation
Procedure 5-7
Ethernet Cable Assembly
Connecting the Ethernet cable to the CSM
Cut the required length of the outdoor-rated Category-5 Ethernet cable for
the chosen installation site. The maximum cable length is 100 m (~330 ft).
Terminate the cable using standard RJ–45 connectors using the procedure as
shown in Figure 6-6.
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 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.
Wrap a drip-loop in the cable at any point where the cable changes direction.
Measure the cable so it will span from the CSM to the surge suppressor box.
Fasten the cable to the building according to local building codes.
NOTE
Cables that move in the wind can be damaged, impart vibrations to
the connected device, or both. At installation time, prevent these
problems by securing all cables with cable ties, cleats, or weather
resistant tape. The cable can be a path for water to follow to enter
the cable connector or even the module. Prevent this problem
by including and securing a drip loop where the cable enters the
building.
Note: "Please select antenna cables suitable for outdoor communication system according to the
requirements of NFPA 70, National Electrical Code, 830.179."
PMP320HDW2v1
5-13
Preliminary
JUL 2010
Running cables through the wall of the building
Chapter 5: CSM Hardware Installation
Running cables through the wall of the building
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The power/Ethernet cable runs from inside the building to the CSM. The following procedure
describes how to run the cables through the wall of the building.
CAUTION
Observe caution when drilling through the wall of the building. Ensure that there are
no power lines, gas lines, water lines, or data lines in the wall at the desired location
where the drilling takes place.
Procedure 5-8
Running cables through the wall of the building
CAUTION
Follow local building codes for penetrating buildings. Observe
caution when drilling through the wall of the building. Ensure that
there are no power lines, gas lines, water lines, or data lines in
the wall at the desired location.
Drill a 3/4 inch. (18 mm) hole through the wall at the desired location.
Draw one end of the category 5e cable through the hole.
Route the category 5e power/Ethernet cable from the surge suppressor to the
location where the power supply is to be plugged in.
After completing the installation, use a grommet for the hole and seal the hole
with a silicone or acrylic caulking material.
5-14
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Preliminary
JUL 2010
PMP 320 Hardware Installation
Installing the 600SSD Surge Suppressor
Installing the 600SSD Surge Suppressor
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Use the following procedure to install the 600SSD Surge suppressor.
CAUTION
Observe caution when drilling through the wall of the building. Ensure that there are
no power lines, gas lines, water lines, or data lines in the wall at the desired location
where the drilling takes place.
Procedure 5-9
Installing the 600SSD Surge Suppressor
With the cable openings facing downward, install the 600SSD surge
suppressor above the site where the hole in the residence has been drilled.
Use two screws to attach the unit following regulatory building guidelines.
Connect the surge suppressor to Earth Ground. Refer to Connecting the
CSM to the Ethernet cable, Earth Ground, the Surge Suppressor on page
6-13. Refer to Figure 6-7.
Pack both of the 600SSD surge suppressor Ethernet jacks with dielectric
grease.
Include a splicing loop in the Ethernet cable from the CSM (extra cable to
allow future repositioning or reconnectorization) and position and secure the
Ethernet cable with UV-resistant wire ties or other locally-approved fasteners
so it forms a drip loop (so water drips off the cable instead of following the
cable into the 600SSD surge suppressor).
Connect the Ethernet connection from the CSM to the surge suppressor.
Build another Ethernet cable to span from the surge suppressor through
the residence wall to the area where the power injector will be placed in
the subscriber’s residence.
Guide the Ethernet cable through the grommet where the drilled hole was
made into the residence.
Seal the cable entry point into the building using accepted industry or local
practices.
Connect the Ethernet cable to the Data In port of the CSM power injector.
Refer to Figure 6-8.
PMP320HDW2v1
5-15
Preliminary
JUL 2010
Connecting the ground wire
Chapter 5: CSM Hardware Installation
Figure 5-5 Cable connections from the surge suppressor to the CSM power injector
and the CSM
Surge Suppressor
All cables must exit
through the allocated slots
Figure 5-6
CSM 320 power injector
AC POWER
DATA & POWER
OUT
DATA
IN
PORT
AC
Connecting the ground wire
The CSM must be grounded to a household ground point or to a grounding rod according to the
applicable electrical code. Equipment grounding practices vary with local building codes and
established practices of the service provider. Following is the CSM grounding procedure
as recommended by Motorola. The ground wire must be a minimum of 18 AWG, with 14 AWG
recommended for runs up to 45 m (~150 ft) and 10 AWG recommended for runs over 45 m
(~150 ft) .
5-16
PMP320HDW2v1
Preliminary
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PMP 320 Hardware Installation
Connecting the power supply and the Ethernet cable to the computer
NOTE
If not using an existing approved grounding system, install a grounding system
(Protective Earth) according to applicable regulations or codes.
Ground the CSM using one of the following methods:
•
If grounding a CSM installed below the roof line, connect the CSM to the ground point of
the building and then attach all wires to the building using electrical staples. Use drip
loops as required.
•
If grounding an CSM that is installed above the roof line, then perform the following:
Connect the ground wire from the CSM/surge suppressor to the ground rod in the
ground next to the building.
Connect the ground rod to the household ground point according to the applicable
electrical code.
Attach all wires to the building using electrical staples. Use drip loops as required.
Use the following procedure to ground the CSM at the residence premises.
Procedure 5-10
Grounding the CSM
Wrap the AWG 10 (6mm2) copper ground wire around the ground post of
the CSM.
Remove the cover of the 600SSD surge suppressor.
Wrap the AWG 10 (6mm2) copper ground wire around the ground post of
the 600SSD.
Tighten the ground post locking nut.
Ensure the pin 4 selector in the 600SSD is set to the factory default of
isolated, not grounded.
If not using an existing approved grounding system, install a grounding
system (Protective Earth) according to applicable regulations or codes.
Connect the ground wire from the CSM and the 600SS to Earth Ground.
Connecting the power supply and the Ethernet cable to the
computer
Perform the following procedure to connect the power supply and the Ethernet cables.
PMP320HDW2v1
5-17
Preliminary
JUL 2010
Connecting the power supply and the Ethernet cable to the computer
Procedure 5-11
Chapter 5: CSM Hardware Installation
Connecting the power supply
Plug the category 5e cord from the CSM/surge suppressor into the jack labeled
AC Power on the CSM Power Injector (if this connection is not already made).
Connect the protected side of the 600SSD surge suppressor cable to the Data
& Power Out port of the CSM power injector.
Use a standard category 5e Ethernet cable to connect the computer to the
jack labeled computer on the power supply.
NOTE
The cable to the CSM provides both power and Ethernet connection.
It is not pin or voltage compatible with IEE std.802.3af-2003
power over Ethernet.
The power cord uses standard household power. Plug the power cord in the
AC power source.
NOTE
The AC line cord is not provided with the hardware. Acquire the
appropriate power line cord for the country where the unit is
installed.
Figure 6-8 illustrates the cable connection through the data line protector and into the power
supply cord.
5-18
PMP320HDW2v1
Preliminary
JUL 2010
Chapter
Connectorized CSM Hardware Installation
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This chapter provides the instructions and procedures used to:
•
connect the Connectorized CSM device to a pole or wall
•
pre-power up alignment for level of service connection
•
cable the unit
•
connect the antenna cables to the unit
•
ground the unit
•
add surge suppression
•
post power up connection
•
IP connectivity alignment correction
CAUTION
The orientation of the CSM when installed is important. The face of the CSM with the
Motorola logo must be pointing in the direction of the antenna facing outwards from
the building. The Ethernet connector must be oriented so it is on the bottom
right corner of the Connectorized CSM.
PMP320HDW2v1
JUL 2010
6-1
Preliminary
Connecting the power supply and the Ethernet cable to the computer Chapter 6: Connectorized CSM Hardware Installation
Figure 6-1
Connectorized CSM (CPE) 320 Identification
G1_CCSMfrtpanelview.eps
Figure 6-2
Connectorized CSM (CPE) 320 Rear View Connectors
G1_CCSM_rearviewconn.ext
6-2
PMP320HDW2v1
Preliminary
JUL 2010
PMP 320 Hardware Installation
Before you begin
Before you begin
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This section describes items that the installer or subscriber must purchase before installing the
CSM. This section also describes items that must be available and points to consider before
beginning the CSM installation.
Additional material required for installation
The additional materials required for installation are as follows:
•
The computer of the subscriber must be equipped with an Ethernet network interface
card (NIC).
NOTE
The NIC is not provided with the CSM, but subscribers can purchase a NIC at
most computer and electronics stores.
•
An RJ–45 Ethernet cable to connect the CSM plug-in power supply to the computer.
•
Ground wire of sufficient length to run between the CSM and the home ground point.
NOTE
•
It is recommended that the ground wire be a 6 AWG, solid copper wire.
•
It is recommended that if a ground rod is used it should be an 8 ft (2.5m)
copper rod.
•
Most buildings have an existing ground rod outside, at the main power
connection site. If desired, a rod can be installed into the ground outside
the building after consulting the local electrical codes.
•
The AC line cord is not provided with the hardware. Acquire the
appropriate power line cord for the country where the unit is installed.
•
Lead screw anchors if the CSM is mounted on a brick or masonry surface.
•
Outdoor-rated category 5e Ethernet cable to connect the CSM plug-in power supply
through the building wall to the CSM.
•
RJ–45 plug connectors and the tools required for field termination of the category 5e cable
•
Grommet to cover a 3/4 inch. (18 mm) hole
•
Silicone or acrylic caulking
PMP320HDW2v1
6-3
Preliminary
JUL 2010
Pre-installation planning
Chapter 6: Connectorized CSM Hardware Installation
Pre-installation planning
While on the ground, find an appropriate location outside the building to mount the CSM.
NOTE
To provide Internet service, the CSM communicates with a base station on the
communications tower of the service provider. Information about the nearest
communications tower is provided by the service provider. For example, if the tower
nearest to the building is towards the north of the building, install the CSM on the
north side of the building.
After determining the optimal side of the building, select an CSM mounting point at a high
location on the building such as under the eaves.
Components shipped with the CSM
Locate the components shipped with the CSM device. The parts list for the CSM installation
consists of the following items:
Table 6-1
CSM parts list
Component
Quantity
CSM 320 device
Bracket base mounting
Bracket Bottom Mounting
Bracket Top Mounting
Middle mounting bracket
M8 (50 mm) hex head bolt
M8 (100 mm) bolt
M8 split washer
13
M8 washer
11
M8 nut
M5 (35 mm) set screw
M4 (16 mm) bolt
M4 split washer
M4 washer
Dsign power supply
ENET cable
6-4
PMP320HDW2v1
Preliminary
JUL 2010
PMP 320 Hardware Installation
Figure 6-3
Cabling Overview
CSM components
CSM320
M8 x 50 MM Bolt
M8 Split Washer
M8 Washer
M5 Set Screw 35MM
M8 Split Washer
M5 Set Screw 35MM
M8 Split Washer
M8 x 50 MM Bolt
M8 Split Washer
M8 Washer
Bracket
Bottom Mounting
Bracket
Top Mounting
Bracket Base Mounting
4X M4 x 16MM Bolt
4X M4 Split Washer
4X M4 Washer
Middle
Mounting bracket
M8 Nut
M8 Split Washer
M8 Washer
2X M8 x 100 MM Bolt
2X M8 Nut
4X M8 Split Washer
4X M8 Washer
Mounting Pole
(Reference)
Cabling Overview
The following items are not supplied with the system:
•
Ground wire
•
Grounding rod
•
Outdoor power/Ethernet cable
•
Ethernet cable
•
Computer NIC
Figure 6-4 illustrates the routing of the ground wire, the category 5e Ethernet cable, and the
CSM power/Ethernet cable.
PMP320HDW2v1
6-5
Preliminary
JUL 2010
Cabling Overview
Chapter 6: Connectorized CSM Hardware Installation
Figure 6-4
CSM mounted to a wall
Building’s Roof
Connectorized CSM
*antenna not shown
CPE Bracket
assembly attached to
building's exterior
CPE
Power/Ethernet
cable
Subscriber’s
Computer
Building’s wall
Dsine
CPE Bracket
assembly attached to
building's exterior
Surge
Suppressor
Ground wire
(not supplied)
Ethernet cable
(not supplied)
6-6
to household
grounding point
PMP320HDW2v1
Preliminary
JUL 2010
PMP 320 Hardware Installation
Installing the CSM
Installing the CSM
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This section describes how to find an appropriate installation location for the CSM, and how
to install the CSM on the building.
Selecting a location for the CSM
Determine the optimum installation location for the CSM before physically mounting the CSM
to the building.
Most often, if the CSM is mounted on the side of the building facing the base station of the
service provider, the CSM can detect adequate signal to provide high-speed Internet access.
However, unless there is an obvious line of sight to the correct base station, the correct
orientation of the CSM is often not apparent. There may also be practical reasons why the CSM
cannot be mounted on the side of the building that faces the base station.
Procedure 6-1
Selecting an installation location for the CSM
Using a laptop and a temporary power source connected to the CSM
locate the optimal site for the CSM to be installed. Refer to the PMP
320 Administration and Configuration Guide for
additional information on accessing the CSM GUI and
status settings.
htt //
i l
db
t/lib
/?
1&
Start by pointing the front of the CSM in the direction that is most likely to
be optimal.
Try pointing the CSM in different directions. If required, perform this
task while standing in the upper stories or on the roof of the building. At
each elevation and in each direction the CSM is pointed.
After determining the place where the best signal can be detected using
the CSM GUI screen information, choose a corresponding CSM installation
location on the building.
=8
NOTE
The CSM can be mounted either directly on the building or on a
pole.
PMP320HDW2v1
6-7
Preliminary
JUL 2010
Installation Overview
Chapter 6: Connectorized CSM Hardware Installation
Installation Overview
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After finding the best installation location on the building, perform the following procedure
to install the CSM.
Procedure 6-2
Installing the Connectorized CSM
Complete the mounting bracket assembly; leave the screws on the bracket
arm slightly loose. If the screws are too tight, the vertical and horizontal tilt
of the CSM cannot be adjusted later.
NOTE
If fastening the CSM to a pole, add the pole clamp to the assembly.
Otherwise, set the pole clamp aside.
Perform one of the following:
1.
If attaching the CSM to the side of a building, attach the CSM to the
building using the wall bracket of the bracket assembly.
2.
Mount the CSM to a pole using the wall bracket and pole clamp of the
bracket assembly.
Adjust the vertical and horizontal tilt of the CSM so that it can obtain the
best signal.
Fully tighten the bracket assembly into the desired position.
Completing the mounting bracket assembly
Perform the following procedure to complete the mounting bracket assembly.
Figure 6-3 to reference the brackets and the assembly of the brackets.
Procedure 6-3
Refer to
Mounting bracket assembly
Attach one end of the bracket arm to the arch on this wall bracket.
Insert a 5/16×1½ hex bolt into the arch of the wall bracket that was attached
to the CSM in step 1. Ensure that the head of the medium hex bolt rests
inside the bolt jam of the arch.
Guide the rest of the bolt through the arch of the wall bracket.
Slide a tooth lock washer on the end of the hex bolt.
Align the hole on one tab of the bracket arm with the end of the bolt.
Continued
6-8
PMP320HDW2v1
Preliminary
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PMP 320 Hardware Installation
Procedure 6-3
Attaching the CSM and mounting the bracket assembly outside the building
Mounting bracket assembly (Continued)
Slide the bracket arm tab onto the bolt, and then place a flat washer over the
end of the bolt.
Tighten the end of the bolt with a hex nut. Leave the hex nut loose enough so
that the vertical tilt of the CSM can be adjusted later.
Attach the other end of the bracket arm to the second wall bracket.
Insert a 5/16×1½ hex bolt into the arch of the second wall bracket. This
bracket is attached to the wall or clamped to a pole.
NOTE
Ensure that the head of the hex bolt rests inside the bolt jam found
on the arch. When the assembly is complete, ensure that the bolt
jam is facing the ground.
10
Guide the rest of the bolt through the arch of the wall bracket.
11
Slide a tooth lock washer at the end of the hex bolt.
12
Align the hole on the tab of the bracket arm with the end of the bolt.
13
Slide the tab of the bracket arm onto the bolt, and then place a flat washer
over the end of the bolt.
14
Tighten the end of the bolt with a hex nut. Leave the hex nut loose enough so
that the horizontal tilt of the CSM can be adjusted later.
15
If fastening the CSM to a pole, loosely attach the clamp to wall bracket 2.
Perform the steps listed in the section Fastening the CSM and mounting the
bracket assembly to a pole.
Attaching the CSM and mounting the bracket assembly outside
the building
WARNING
Maintain a safe distance from RF exposure at least 120 cm when installing the CSM to
the subscriber building. Maintain safe distances from power lines.
Perform the following procedure to attach the CSM to the outside of the building.
PMP320HDW2v1
6-9
Preliminary
JUL 2010
Fastening the CSM and mounting the bracket assembly to a pole
Procedure 6-4
building
Chapter 6: Connectorized CSM Hardware Installation
Attaching the CSM and mounting the bracket assembly outside the
Where possible, install the CSM on the side of the building that has the
greatest exposure to the communications tower of the service provider. The
service provider can provide information about tower locations that can
provide the CSM with the greatest signal exposure.
Drill holes into the exterior wall of the building where the CSM must be hung.
•
Drill the two top holes 2.5 inches apart. Drill the bottom holes 2.5 inches
below the top holes.
•
If possible, drill one upper hole and its corresponding lower hole into a
stud. Do not allow the CSM to be supported by the siding of the building.
•
If installing the CSM on a brick or masonry surface, use appropriate
anchors.
CAUTION
Observe caution when drilling through the wall of the building.
Ensure that there are no power lines, gas lines, water lines, or data
lines in the wall at the desired location where the drilling takes place.
After the holes are drilled into the building, drive the screws through the
holes on the wall bracket and into the building. While attaching the bracket
assembly to the wall, ensure that the bottom of the CSM is pointing towards
the ground. The bottom of the CSM is the side with the five lights and the
grounding lug. The CSM must be installed vertically.
Fastening the CSM and mounting the bracket assembly to a pole
If fastening the CSM to a pole, add the pole clamp to the assembly. Perform the following
procedure to fasten the CSM to a pole.
Procedure 6-5
Fastening the CSM and mounting the bracket assembly to a pole
Insert the following through the holes on the clamp:
•
Large hex bolt
•
Large split washer
•
Large washer
Place the clamp around the pole.
Align the screw assembly with the center holes on the wall bracket.
Tighten the clamp so that the bracket assembly and the attached CSM are
tight on the pole.
6-10
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PMP 320 Hardware Installation
Connecting the Antenna Cables to the Unit
Connecting the Antenna Cables to the Unit
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Use the following procedure to connect the antenna cables to the unit. Depending upon
the type of antenna used, either two omni antennas, or one diagonal polarized antenna, the
connectors from the installed antennas must be connected to the Connectorized CSM unit
N-type connectors.
Ensure that the cable length between the CSM and the antenna connectors is 18 inches (1 ft
and 6 in).
Refer to the Chapter titled Installing Antennas for additional information regarding antenna
installation procedures.
Figure 6-5
Connectorized CSM antenna cable connector location
G1_Ccsmantennaconnid.eps
Procedure 6-6 Connecting the Antenna Cables to the Connectorized CSM when
using an Omni Antenna
Verify that the length between the CSM and the Omni antennas is 18 inches
apart (1 ft and 6 in). Refer to Figure 6-5 for cable connection location on
the CSM.
Using a 50 ohm low loss cable with an N-type connector, connect the end of
the cable from the Omni antenna connector to the CSM N-type connector.
Repeat step 1 for the second Omni antenna.
PMP320HDW2v1
6-11
Preliminary
JUL 2010
Connecting the Antenna Cables to the Unit
Chapter 6: Connectorized CSM Hardware Installation
Procedure 6-7 Connecting the Antenna Cables to the Connectorized CSM when using
an Diagonal Polarized Antenna
Using a 50 ohm low loss cable with an N-type connector, connect the N-type
connector to the V-polarity connector of the antenna to the CSM N-type
connector. Refer to Figure 6-5 for cable connection location on the CSM.
Using the other 50 ohm cable, connect the N-type connector to the H-polarity
connector of the antenna to the CSM N-type connector.
6-12
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PMP 320 Hardware Installation
Connecting the CSM to the Ethernet cable, Earth Ground, the Surge Suppressor
Connecting the CSM to the Ethernet cable, Earth
Ground, the Surge Suppressor
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Ethernet Cable Assembly
Before installing the CSM Ethernet cable, ensure that the Ethernet cable is constructed with the
weather protection kit that is contained with the CSM device. Use Figure 6-6 to construct the
weather protection housing around the Ethernet cable and RJ-45 plug. This weatherized cable
connects to the ENET connector of the CSM.
Figure 6-6
Ethernet cable weather protection assembly
Strip cable
sheath.
Insert the screw nut into
the
housing.
Insert the seal at the back
end of the housing.
7.7
Recommended wire Gauge: 24AWG
Insert the cable all the
way
through.
Seal
Screw Nut
Crimp the RJ45 plug.
Insert the plug into the
housing. Then secure the
sealing nut in place.
Crimp the
RJ45 plug
Plug
Cable
Strick the gasket on
the
front end of the housing.
Parts Identification
Seal
RJ45 Plug
Gasket
Screw Nut
Screw Nut
Housing
Gasket
Perform the following procedure to connect the Ethernet/power cable to the CSM.
PMP320HDW2v1
6-13
Preliminary
JUL 2010
Ethernet Cable Assembly
Chapter 6: Connectorized CSM Hardware Installation
Procedure 6-8
Connecting the Ethernet cable to the CSM
Cut the required length of the outdoor-rated Category-5 Ethernet cable for
the chosen installation site. The maximum cable length is 100 m (~330 ft).
Terminate the cable using standard RJ–45 connectors using the procedure as
shown in Figure 6-6.
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 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.
Wrap a drip-loop in the cable at any point where the cable changes direction.
Measure the cable so it will span from the CSM to the surge suppressor box.
Fasten the cable to the building according to local building codes.
NOTE
Cables that move in the wind can be damaged, impart vibrations to
the connected device, or both. At installation time, prevent these
problems by securing all cables with cable ties, cleats, or weather
resistant tape. The cable can be a path for water to follow to enter
the cable connector or even the module. Prevent this problem
by including and securing a drip loop where the cable enters the
building.
6-14
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PMP 320 Hardware Installation
Running cables through the wall of the building
Running cables through the wall of the building
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The power/Ethernet cable runs from inside the building to the CSM. The following procedure
describes how to run the cables through the wall of the building.
CAUTION
Observe caution when drilling through the wall of the building. Ensure that there are
no power lines, gas lines, water lines, or data lines in the wall at the desired location
where the drilling takes place.
Procedure 6-9
Running cables through the wall of the building
CAUTION
Follow local building codes for penetrating buildings. Observe
caution when drilling through the wall of the building. Ensure that
there are no power lines, gas lines, water lines, or data lines in
the wall at the desired location.
Drill a 3/4 inch. (18 mm) hole through the wall at the desired location.
Draw one end of the category 5e cable through the hole.
Route the category 5e power/Ethernet cable from the surge suppressor to the
location where the power supply is to be plugged in.
After completing the installation, use a grommet for the hole and seal the hole
with a silicone or acrylic caulking material.
PMP320HDW2v1
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JUL 2010
Installing the 600SSD Surge Suppressor
Chapter 6: Connectorized CSM Hardware Installation
Installing the 600SSD Surge Suppressor
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Use the following procedure to install the 600SSD Surge suppressor.
CAUTION
Observe caution when drilling through the wall of the building. Ensure that there are
no power lines, gas lines, water lines, or data lines in the wall at the desired location
where the drilling takes place.
Procedure 6-10
Installing the 600SSD Surge Suppressor
With the cable openings facing downward, install the 600SSD surge
suppressor above the site where the hole in the residence has been drilled.
Use two screws to attach the unit following regulatory building guidelines.
Connect the surge suppressor to Earth Ground. Refer to Connecting the
CSM to the Ethernet cable, Earth Ground, the Surge Suppressor on page
6-13. Refer to Figure 6-7.
Pack both of the 600SSD surge suppressor Ethernet jacks with dielectric
grease.
Include a splicing loop in the Ethernet cable from the CSM (extra cable to
allow future repositioning or reconnectorization) and position and secure the
Ethernet cable with UV-resistant wire ties or other locally-approved fasteners
so it forms a drip loop (so water drips off the cable instead of following the
cable into the 600SSD surge suppressor).
Connect the Ethernet connection from the CSM to the surge suppressor.
Build another Ethernet cable to span from the surge suppressor through
the residence wall to the area where the power injector will be placed in
the subscriber’s residence.
Guide the Ethernet cable through the grommet where the drilled hole was
made into the residence.
Seal the cable entry point into the building using accepted industry or local
practices.
Connect the Ethernet cable to the Data In port of the CSM power injector.
Refer to Figure 6-8.
6-16
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Preliminary
JUL 2010
PMP 320 Hardware Installation
Connecting the ground wire
Figure 6-7 Cable connections from the surge suppressor to the CSM power injector
and the CSM
Surge Suppressor
All cables must exit
through the allocated slots
Figure 6-8
CSM 320 power injector
AC POWER
DATA & POWER
OUT
DATA
IN
PORT
AC
Connecting the ground wire
The CSM must be grounded to a household ground point or to a grounding rod according to the
applicable electrical code. Equipment grounding practices vary with local building codes and
established practices of the service provider. Following is the CSM grounding procedure
as recommended by Motorola. The ground wire must be a minimum of 18 AWG, with 14 AWG
recommended for runs up to 45 m (~150 ft) and 10 AWG recommended for runs over 45 m
(~150 ft) .
PMP320HDW2v1
6-17
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Connecting the power supply and the Ethernet cable to the computer Chapter 6: Connectorized CSM Hardware Installation
NOTE
If not using an existing approved grounding system, install a grounding system
(Protective Earth) according to applicable regulations or codes.
Ground the CSM using one of the following methods:
•
If grounding a CSM installed below the roof line, connect the CSM to the ground point of
the building and then attach all wires to the building using electrical staples. Use drip
loops as required.
•
If grounding an CSM that is installed above the roof line, then perform the following:
Connect the ground wire from the CSM/surge suppressor to the ground rod in the
ground next to the building.
Connect the ground rod to the household ground point according to the applicable
electrical code.
Attach all wires to the building using electrical staples. Use drip loops as required.
Use the following procedure to ground the CSM at the residence premises.
Procedure 6-11
Grounding the CSM
Wrap the AWG 10 (6mm2) copper ground wire around the ground post of
the CSM.
Remove the cover of the 600SSD surge suppressor.
Wrap the AWG 10 (6mm2) copper ground wire around the ground post of
the 600SSD.
Tighten the ground post locking nut.
Ensure the pin 4 selector in the 600SSD is set to the factory default of
isolated, not grounded.
If not using an existing approved grounding system, install a grounding
system (Protective Earth) according to applicable regulations or codes.
Connect the ground wire from the CSM and the 600SS to Earth Ground.
Connecting the power supply and the Ethernet cable to the
computer
Perform the following procedure to connect the power supply and the Ethernet cables.
6-18
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Preliminary
JUL 2010
PMP 320 Hardware Installation
Connecting the power supply and the Ethernet cable to the computer
Procedure 6-12
Connecting the power supply
Plug the category 5e cord from the CSM/surge suppressor into the jack labeled
AC Power on the CSM Power Injector (if this connection is not already made).
Connect the protected side of the 600SSD surge suppressor cable to the Data
& Power Out port of the CSM power injector.
Use a standard category 5e Ethernet cable to connect the computer to the
jack labeled computer on the power supply.
NOTE
The cable to the CSM provides both power and Ethernet connection.
It is not pin or voltage compatible with IEE std.802.3af-2003
power over Ethernet.
The power cord uses standard household power. Plug the power cord in the
AC power source.
NOTE
The AC line cord is not provided with the hardware. Acquire the
appropriate power line cord for the country where the unit is
installed.
Figure 6-8 illustrates the cable connection through the data line protector and into the power
supply cord.
PMP320HDW2v1
JUL 2010
6-19
Preliminary
Connecting the power supply and the Ethernet cable to the computer Chapter 6: Connectorized CSM Hardware Installation
6-20
PMP320HDW2v1
Preliminary
JUL 2010
Chapter
Connectorized CSM Antenna Installation
Instructions
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PMP320HDW2v1
JUL 2010
7-1
Preliminary
Antenna Types used with the Connectorized CSM
Chapter 7: Connectorized CSM Antenna Installation Instructions
Antenna Types used with the Connectorized CSM
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There are two antenna types that have been tested with the Connectorized CSM PMP 320
product. The antennas that have been tested are as follows:
•
3.3-3.8 GHz Dual Polarization/ Dual Slant Subscriber Antenna
•
3.3-3.8 GHz Omni Directional Base Station Antenna
This section provides installation procedures for both types of antennas.
Dual Polarization/Dual Slant Subscriber Antenna
The Dual Polarization Dual Slant antenna features dual slant when it is mounted diagonally. It
also offers:
•
stable performance with 22 dBi of gain
•
compact size allowing easy blending in any environment
•
mount hardware that allows for quick and easy 45 degree turn installation
•
UV protected radome suitable for harsh environments
Figure 7-1
Dual Polarization/Dual Slant Subscriber Antenna
G1diaganttccsml.eps
7-2
PMP320HDW2v1
Preliminary
JUL 2010
PMP 320 Hardware Installation
Dual Polarization/Dual Slant Subscriber Antenna
Specifications
The Dual Polarized / Dual Slant Subscriber Antenna is produced with the following specifications:
Table 7-1
Dual Polarized / Dual Slant Subscriber Antenna Electrical Specifications
Specification
Value
Frequency range
3.3 – 3.8 GHz
GAIN: H-Port & V-Port
22dBi
VSWR, max.
1.7 : 1
Polarization Dual Pole
Linear, Vertical & Horizontal
Dual Slant (optional)
± 45°
3 dB Beam-Width, H-Plane, typ.
12°
3 dB Beam-Width, E-Plane, typ.
12°
Cross Polarization, max
ETSI TS3
Front to Back Ratio, max.
ETSI TS3
Port to Port Isolation, typ.
-35 dB
Input power, max
10 Watt
Input Impedance
50 Ohm
Lightning Protection
DC Grounded
Table 7-2
Dual Polarized / Dual Slant Subscriber Antenna Mechanical Specifications
Specification
Value
Dimensions (HxWxD)
370 x 370 x 40 mm (14.5" x14.5" x1.6")
Weight
2.1 kg
Connector
2x SMA, Female or 2x N-Type, Female
Back Plane
Aluminum; protected through chemical
passivation
Radome
Plastic UV Protected
Mount
MNT-22
Table 7-3 Dual Polarized / Dual Slant Subscriber Antenna Environmental
Specifications
Specification
Value
Operating Temperature Range
- 55°C to + 65°C
Vibration
According to IEC 60721-3-4
Wind Load
200 km/h (survival)
Flammability
UL94
Continued
PMP320HDW2v1
7-23
Preliminary
JUL 2010
Dual Polarization/Dual Slant Subscriber Antenna
Chapter 7: Connectorized CSM Antenna Installation Instructions
Table 7-3 Dual Polarized / Dual Slant Subscriber Antenna Environmental
Specifications (Continued)
Specification
Value
Water Proofing
IP-67
Humidity
ETS 300 019-1-4, EN 302 085 (annex A.1.1
Salt Fog
According to IEC 68-2-11
Ice and Snow
25mm radial (survival)
Service Life
>10 years
The Standard Compliance of the Dual Polarized / Dual Slant Subscriber Antenna is ETSI TS3.
Parts List
Table 7-4
Dual Polarized / Dual Slant Subscriber Antenna Parts List
Quantity
Description
Pole 1 inch to 4 inches (not supplied)
MNT-22–1
MNT-22–2
MNT-22–4
MNT-22–3
5/16 Helical spring lock washers
5/16 plain washer
5/16–18 x 1.25 inch Hex cap screws
5/16–18 x 5 inch hex cap screws
1/4 plain washer
1/4 helical spring lock washer
1/4–20 hex nut
5/16–18 hex nut
7-24
PMP320HDW2v1
Preliminary
JUL 2010
PMP 320 Hardware Installation
Figure 7-2
Dual Polarization/Dual Slant Subscriber Antenna
Mounting Bracket Parts Identification
G1_antassemblyparts.eps
Tools
The following tools are needed for the antenna mounting bracket assembly:
•
Torque driver – 30 in-lbs
Antenna Mounting Instructions
Use the following procedure to mount the Dual Polarized / Dual Slant Subscriber Antenna.
Figure 7-3
Assembly
Dual Polarized / Dual Slant Subscriber Antenna Rear View for Mounting
G1_antassemblyrearview.eps
PMP320HDW2v1
7-25
Preliminary
JUL 2010
Omni Directional Base Station Antenna
Procedure 7-1
Chapter 7: Connectorized CSM Antenna Installation Instructions
Mounting the Dual Polarized / Dual Slant Subscriber Antenna to a pole
Place part number MNT-22–1 (antenna mounting plate) on the antenna and
align with the screw holes.
Connect part number MNT-22–1 (middle mounting bracket) to the antenna
mounting plate with four 1/4 inch spring washers, four 1/4 inch flat washers,
and four 1/4–20 hex nuts. Tighten the hex nuts with a torque driver to 30
in-lbs.
Attach part number MNT-22–2 to the antenna mounting plate assembly using
a 5/16 inch helical spring lock washer, a 5/16 inch plain washer, a 5/16–18 x
1.25 inch hex cap screw, and a 5/16–18 hex nut. Leave the assembly loosely
tightened. Do not torque the nuts at this step.
Attach part number MNT-22-3 (bottom pole mounting bracket) to the
assembly from step 3. Use a 5/16 inch helical spring lock washer, a 5/16 inch
plain washer, a 5/16–18 x 1.25 inch hex cap screw, and a 5/16–18 hex nut.
Leave the assembly loosely tightened. Do not torque the nuts at this step.
Locate the area of the pole to mount the antenna, and place the bottom pole
mounting bracket with the rest of the assembly on the pole.
Attach the top pole bracket part number MNT-22–4 to the bottom pole
mounting bracket and assembly using two 5/16 helical spring lock washers,
two plain washers, and two 5/16–18 x 5 inch hex cap screws.
Adjust the antenna ensuring that the antenna is set at a diagonal position.
Tighten all nuts at a torque of 30 in-lbs.
Connect the antenna to the connectorized CSM using the instructions in the
Connectorized CSM Installation chapter.
Omni Directional Base Station Antenna
The Omni Directional Base Station Antenna features dual slant when it is mounted diagonally. It
also offers:
•
stable performance with 9.5 dBi of gain
•
compact size allowing easy blending in any environment
•
UV protected radome suitable for harsh environments
7-26
PMP320HDW2v1
Preliminary
JUL 2010
PMP 320 Hardware Installation
Figure 7-4
Omni Directional Base Station Antenna
Omni Directional Base Station Antenna Identification
G1_omnipolemntview.eps
Specifications
Table 7-5
Omni Directional Base Station Antenna Electrical Specification
Specification
Value
Frequency range
3.3- 3.8 GHz
GAIN, typ.
9.5 dBi@3.4-3.8
9 dBi@3.3-3.4
VSWR, max.
2: 1
Polarization
Linear, Vertical
3 dB Beam-Width, H-Plane, typ.
Omni Directional
3 dB Beam-Width, E-Plane, typ.
10°
Input power, max
50 Watt
Input Impedance
50 Ohm
Table 7-6
Omni Directional Base Station Antenna Mechanical Specification
Specification
Value
Dimensions (HxDia.)
470 x 66 mm (18.5” x 2. 5”)
Weight
350 gr.
Connector
N-Type, Female
Radome
UV Protected , Plastic
Mount
2.5” PM (End) Attachment
PMP320HDW2v1
7-27
Preliminary
JUL 2010
Omni Directional Base Station Antenna
Table 7-7
Chapter 7: Connectorized CSM Antenna Installation Instructions
Omni Directional Base Station Antenna Environmental Specification
Specification
Value
Operating Temperature Range
- 40°C to + 65°C
Vibration
According to IEC 60721-3-4
Wind Load
200 km/h (survival)
Flammability
UL94
Water Proofing
IP-65
Humidity
ETS 300 019-1-4, EN 302 085 (annex A.1.1)
Salt Fog
According to IEC 68-2-11
Ice and Snow
25mm radial (survival)
Service Life
>10 years
Parts List
Table 7-8
Omni Directional Base Station Antenna Pole Mounting Parts List
Quantity
Figure 7-5
Description
U-brackets
Plain washers
Helical spring lock washers
Hex nuts
Omni Directional Base Station Antenna Parts Identification
G1_omnipolemntpartsid.eps
Tools
Hex wrench
7-28
PMP320HDW2v1
Preliminary
JUL 2010
PMP 320 Hardware Installation
Omni Directional Base Station Antenna
Antenna Mounting Instructions
Use the following procedure to mount the Omni Directional Base Station Antenna to a pole.
Note that two Omni Directional Base Station Antennas are needed to support the Connectorized
PMP 320 CSM.
Figure 7-6
Omni Directional Base Station Antenna Bracket Identification
G1_omnipolemntbracketconn.eps
Procedure 7-2
pole
Procedure to mount an Omni Directional Base Station Antenna to a
Locate the area of the pole where the Omni Directional Base Station Antenna
will be mounted to the pole.
Slide the U-bracket around the pole.
Align the Omni Directional Base Station antenna bracket and pass the
U-bracket through the bracket of the antenna.
Slide the plain washers on the U-bracket.
Slide the helical locking washers on the U-bracket
Use the nuts to securely fasten the antenna bracket to the U-bracket
Repeat step 2 through step step 6 for the second bracket. Repeat these steps
for the second antenna.
Connect the antenna to the connectorized CSM using the instructions in the
Connectorized CSM Installation chapter.
PMP320HDW2v1
JUL 2010
7-29
Preliminary
Omni Directional Base Station Antenna
Chapter 7: Connectorized CSM Antenna Installation Instructions
7-30
PMP320HDW2v1
Preliminary
JUL 2010
Chapter
Regulatory, Legal, and Safety Notices
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PMP320HDW2v1
JUL 2010
7-31
Preliminary
IMPORTANT NOTE ON MODIFICATIONS
Chapter 8: Regulatory, Legal, and Safety Notices
IMPORTANT NOTE ON MODIFICATIONS
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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.
Federal Communication Commission Interference Statement
This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15
of the 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 the instructions, may cause harmful interference to radio communications. However,
there is no guarantee that interference will not occur in a particular installation. If this equipment does cause
harmful interference to radio or television reception, which can be determined by turning the equipment off and on,
the user is encouraged to try to correct the interference by one of the following measures:
Reorient or relocate the receiving antenna.
Increase the separation between the equipment and receiver.
Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
Consult the dealer or an experienced radio/TV technician for help.
FCC Caution: Any changes or modifications not expressly approved by the party responsible for compliance could
void the user's authority to operate this equipment.
This device complies with Part 15 of the FCC Rules. 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.
IMPORTANT NOTE:
FCC Radiation Exposure Statement:
3630SMC complies with FCC radiation exposure limits set forth for an uncontrolled environment. This equipment
should be installed and operated with minimum distance 20 cm between the radiator & your body.
This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter.
The availability of some specific channels and/or operational frequency bands are country dependent and are
firmware programmed at the factory to match the intended destination. The firmware setting is not accessible by
the end user.
Industry Canada statement:
This device complies with RSS-192 of the Industry Canada Rules. 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.
IMPORTANT NOTE:
Radiation Exposure Statement:
This equipment complies with Canada radiation exposure limits set forth for an uncontrolled environment. This
equipment should be installed and operated with minimum distance 81 cm between the radiator & your body.
This device has been designed to operate with an antenna having a maximum gain of 22 dBi. Antenna having a
higher gain is strictly prohibited per regulations of Industry Canada. The required antenna impedance is 50 ohms.
7-32
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PMP 320 Hardware Installation
NATIONAL AND REGIONAL REGULATORY NOTICES
NATIONAL AND REGIONAL REGULATORY NOTICES
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U.S. Federal Communication Commission (FCC) Notification
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:
Table 8-1
•
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.
FCC IDs and the specific configurations
FCC ID
ABZ89FT7632
ABZ89FT7633
Operating
Frequency
3.650 to
3.675 GHz
3.650 GHz to
3.675 GHz
Model
Number
3630APC
3630SM
Channel
Size
Antenna
Gain
16.5 dBi
14.5 dBi
Maximum
Transmitter
Output Power
Maximum
allowed EIRP
10 MHz
22.91 dBm
NA
7 MHz
21.35 dBm
NA
5 MHz
19.81 dBm
NA
3.5 MHz
18.33 dBm
NA
10 MHz
10 MHz
10 W (40 dBm
PMP320HDW2v1
7 MHz
24 dBm
7 W (38.5 dBm)
5 MHz
22.5 dBm
5 W (37 dBm)
3.5 MHz
20.9 dBm
3.5C W (35.4
dBm)
tinued
8-33
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■
Industry Canada Notification
Table 8-1
FCC ID
ABZ89FT7636
ABZ89FT7636
Chapter 8: Regulatory, Legal, and Safety Notices
FCC IDs and the specific configurations (Continued)
Operating
Frequency
Model
Number
Antenna
Gain
3.650 GHz to
3.675 GHz
3630SMC
9.5
3.650 GHz to
3.675 GHz
3630SMC
Channel
Size
22
Maximum
Transmitter
Output Power
Maximum
allowed EIRP
10MHz
26.5
36
7MHz
25
34.5
5MHz
24
33.5
3.5MHz
23
32.5
10MHz
14
36
7MHz
13
35
5MHz
12
34
3.5MHz
11.5
33.5
Industry Canada Notification
This device is approved for use in Canada in the licensed frequencies from 3.450 GHz to 3.700
GHz. It is undergoing Industry Canada approval for use in the 3.65 GHz band, and may not be
used in that band until Industry Canada approval is granted.
Operation is subject to the following two conditions:
•
This device may not cause harmful interference and
•
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.
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.
For 3630APC (3600~3650 MHz)
This device has been designed to operate with an antenna having a maximum gain of 17 dBi. Antenna having a higher gain
is strictly prohibited per regulations of Industry Canada. The required antenna impedance is 50 ohms.
For 3630APC (3650~3700MHz)
This device has been designed to operate with an antenna having a maximum gain of 16.5 dBi. Antenna having a higher
gain is strictly prohibited per regulations of Industry Canada. The required antenna impedance is 50 ohms.
For 3530SMC/3630SMC
This device has been designed to operate with an antenna having a maximum gain of 22 dBi. Antenna having a higher gain
is strictly prohibited per regulations of Industry Canada. The required antenna impedance is 50 ohms.
PMP 320 Hardware Installation
European Union Notification
8-34
PMP320HDW2v1
Preliminary
JUL 2010
Table 8-2
Industry Canada Certification Numbers and the specific configuration
IC ID
Operating
Frequency
Model
number
Antenna
Gain
Channel
Size
Maximum
Allowed
EIRP
109 W-3530APC
3450~3600MHz
3530 APC
16.5 dBi
any
NA
connectorized
109W-3630APC
3600~3650MHz
3636APC
17 dBi
any
NA
109W-3630APC
3650~3700MHz
3636APC
16.5 dBi
any
NA
109W-3530SM
3450~3600MHz
3530SM
14.5 dBi
NA
NA
109W-3630SM
3600~3700MHz
3630SM
14.5 dBi
NA
NA
109W3530SMC
109W-3630SMC
3450~3600MHz
3530SMC
22 dBi
NA
NA
3600~3700MHz
3639SMC
NA
NA
NA
Maximum
Transmitter
Output
power
27dBm
(500mW)
27dBm
(500mW)
25dBm
(316mW)
27dBm
(500mW)
27dBm
(500mW)
27 dBm
(500mW)
TBD
European Union Notification
The relevant Declaration of Conformity can be found at
http://motorola.wirelessbroadbandsupport.com/doc.php
Equipment Disposal
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.
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.
PMP320HDW2v1
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Labeling and Disclosure Table for China
Chapter 8: Regulatory, Legal, and Safety Notices
The relevant Declaration of Conformity can be found at http://motorola.wirelessbroadbandsupport.com/doc.php .
Labeling and Disclosure Table for China
The People’s Republic of China requires that Motorola’s products comply with ChinaManagement
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 Table 6 3
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 2
Logo 1
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 is intended to communicate compliance with only China requirements;
it is not intended to communicate compliance with EU RoHS or any other environmental
requirements.
Figure 8-1
Disclosure Table
8-36
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PMP 320 Hardware Installation
RF EXPOSURE SEPARATION DISTANCES
RF EXPOSURE SEPARATION DISTANCES
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To protect from overexposure to RF energy, an AP must be installed to provide a separation
distance of at least 50 cm ( ~20 in) from all persons In addition, do not collocate within 20 cm
(4 in) of any other antenna or transmitter.
To protect from overexposure to RF energy, an SM must be installed to provide a separation
distance of at least 50 cm ( ~20 in) from all persons and must not be collocated or operating
with any other antenna or transmitter.
The following section and table provide details and discussion on the separate distance
calculations.
To protect from overexposure to EU RF energy, An 3530SMC must be installed to provide a separation
distance of at least 82 cm from all persons and must be not collocated or operating with any other
antenna or transmitter.
To protect from overexposure to EU RF energy, An 3630SMC must be installed to provide a separation
distance of at least 120 cm from all persons and must be not collocated or operating with any other
antenna or transmitter.
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 the Health Canada web site at
http://www.hc-sc.gc.ca/rpb and Safety Code 6.
•
ICNIRP (International Commission on Non-Ionizing Radiation Protection) guidelines for
the general public. See the ICNIRP web site at http://www.icnirp.de/ and Guidelines for
Limiting Exposure to Time-Varying Electric, Magnetic, and Electromagnetic Fields.
The applicable power density exposure limits from the documents referenced above is 10 W/m2.
Peak power density in the far field of a radio frequency point source is calculated as:
Figure 8-2
Peak power density calculation
PMP320HDW2v1
8-37
Preliminary
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Table 8-3 shows calculated minimum separation distances d, recommended distances and
resulting power compliance margins for each frequency band and antenna combination.
Details of Exposure Separation Distances Calculations and Power Compliance Margins
Regulatory, Legal, and Safety Notices
Table 8-3
Chapter 8:
Calculated exposure distances and power compliance margins
P( dBm )
P( W )
Distance (cm ,
Calculated )
3630APC
25.1
0.324
16.5
10
33.92
3630SM
27.06
0.508
14.5
10
33.76
These are conservative distances:
•
They are along the beam direction (the direction of greatest energy). Exposure to the sides
and back of the module is significantly less.
•
In the case of collocated APs, they assume all APs are oriented in the same direction,
which is a worst-case calculation.
•
They meet or exceed sustained exposure limits for the general population (not just
short-term occupational exposure limits).
•
The calculated compliance distance d is overestimated because the far-field equation
models the antenna(s) as a point source and neglects the physical dimension of the
antenna(s).
Table 8-4
Exposure separation distances
Module Type
8-38
Separation Distance from Persons
Radio Module with integrated antenna
At least 20 cm (approximately 8
inches)
Module with Reflector Dish
At least 1.5 m (approximately 60
inches or 5 feet)
Module with LENS
At least 0.5 m (approximately 20
inches)
Antenna of connectorized 5.7 GHz AP
At least 30 cm (approximately 12
inches)
Antenna of connectorized
or integrated 900 MHz
module
At least 60 cm (approximately 24
inches)
Indoor 900 MHz SM
At least 10 cm (approximately 4
Preliminary
PMP320HDW2v1
JUL 2010
inches)
PMP 320 AP
At least 50 cm (approximately 20
inches)
PMP320HDW2v1
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PMP 320 Hardware Installation
Software License Terms and Conditions
Software License Terms and Conditions
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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
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.
8-40
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Software License Terms and Conditions
Chapter 8: Regulatory, Legal, and Safety Notices
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 ERRORFREE, 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.
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.
PMP320HDW2v1
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PMP 320 Hardware Installation
Software License Terms and Conditions
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.
8-42
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Hardware Warranty in US
Chapter 8: Regulatory, Legal, and Safety Notices
Hardware Warranty in US
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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.
PMP320HDW2v1
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PMP 320 Hardware Installation
LIMIT OF LIABILITY
LIMIT OF LIABILITY
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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.
8-44
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Page Count                      : 146
Author                          : WendyLiao
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