HARRIS TR-0057-E Base station transceiver (700 MHz band) User Manual MM 015039 001rA3 Harris
HARRIS CORPORATION Base station transceiver (700 MHz band) MM 015039 001rA3 Harris
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Contents
- 1. Overview Manual
- 2. User Guide
Overview Manual
Overview Manual
MM-015039-001
Rev. A, Jun/09
MASTR V
Base Station
MM-015039-001, Rev. A
2
MANUAL REVISION HISTORY
REV DATE REASON FOR CHANGE
- Feb/09 Initial Release.
A Jun/09 Updated technical specifications and company information.
Harris Corporation, RF Communications Division continually evaluates its technical publications for completeness, technical
accuracy, and organization. You can assist in this process by submitting your comments and suggestions to the following:
Harris Corporation fax your comments to: 1-434-455-6851
RF Communications Division or
Technical Publications e-mail us at: techpubs@tycoelectronics.com
221 Jefferson Ridge Parkway
Lynchburg, VA 24501
ACKNOWLEDGEMENT
This device is made under license under one or more of the following US patents: 4,590,473; 4,636,791; 5,148,482;
5,185,796; 5,271,017; 5,377,229; 4,716,407; 4,972,460; 5,502,767; 5,146,497; 5,164,986; 5,185,795; 5,226,084; 5,247,579;
5,491,772; 5,517,511; 5,630,011; 5,649,050; 5,701,390; 5,715,365; 5,754,974; 5,826,222; 5,870,405; 6,161,089; and
6,199,037 B1. DVSI claims certain rights, including patent rights under aforementioned U.S. patents, and under other U.S.
and foreign patents and patents pending. Any use of this software or technology requires a separate written license from
DVSI. CREDITS
All brand and product names are trademarks, registered trademarks, or service marks of their respective holders.
AMBE is a registered trademark and IMBE, AMBE+, and AMBE+2 are trademarks of Digital Voice Systems, Inc.
NOTICE!
Tyco Electronics (“TE”) has divested its Wireless systems business to Harris Corporation (“HARRIS”). As a result, all
references herein to TE or M/A-COM shall be to HARRIS. Neither TE nor M/A-COM is an agent or affiliate of Harris.
Information and descriptions contained herein are the property of Harris Corporation. Such information and descriptions may
not be copied or reproduced by any means, or disseminated or distributed without the express prior written permission of
Harris Corporation, RF Communications Division, 221 Jefferson Ridge Parkway, Lynchburg, VA 24501.
Repairs to this equipment should be made only by an authorized service technician or facility designated by the supplier. Any
repairs, alterations or substitutions of recommended parts made by the user to this equipment not approved by the
manufacturer could void the user's authority to operate the equipment in addition to the manufacturer's warranty.
This product conforms to the European Union WEEE Directive 2002/96/EC. Do not dispose of this
product in a public landfill. Take it to a recycling center at the end of its life.
This manual is published by Harris Corporation without any warranty. Improvements and changes to this manual
necessitated by typographical errors, inaccuracies of current information, or improvements to programs and/or equipment,
may be made by Harris Corporation at any time and without notice. Such changes will be incorporated into new editions o
f
this manual. No part of this manual may be reproduced or transmitted in any form or by any means, electronic or mechanical,
including photocopying and recording, for any purpose, without the express written permission of Harris Corporation.
Copyright © 2009, Harris Corporation. All rights reserved.
MM-015039-001, Rev. A
3
TABLE OF CONTENTS
Section Page
1 REGULATORY AND SAFETY INFORMATION ......................................................................................5
1.1 SAFETY SYMBOL CONVENTIONS.................................................................................................. 5
1.2 IMPORTANT SAFETY INSTRUCTIONS........................................................................................... 5
1.3 MAXIMUM PERMISSIBLE EXPOSURE LIMITS ............................................................................. 7
1.4 DETERMINING MPE RADIUS ........................................................................................................... 7
1.5 SAFETY TRAINING INFORMATION................................................................................................ 7
1.6 REGULATORY APPROVALS............................................................................................................. 8
1.6.1 Federal Communications Commission...................................................................................... 8
1.6.2 Industry Canada......................................................................................................................... 9
2 SPECIFICATIONS (GENERAL)................................................................................................................. 10
2.1 GENERAL SPECIFICATIONS........................................................................................................... 10
2.1.1 Transmitter .............................................................................................................................. 11
2.1.2 Receiver................................................................................................................................... 11
3 INTRODUCTION.......................................................................................................................................... 12
4 MASTR V BASE STATION OVERVIEW.................................................................................................. 13
4.1 MULTI-CHANNEL BASE STATION SHELF ASSEMBLY ............................................................ 13
4.1.1 Multi-Channel Base Station Shelf ........................................................................................... 14
4.2 HIGH POWER AMPLIFIER/POWER SUPPLY SHELF ASSEMBLY............................................. 16
4.3 MASTR V MODULES........................................................................................................................ 16
4.3.1 Ethernet Switch (E-SWITCH)................................................................................................. 16
4.3.2 Transmitter Module (TX) ........................................................................................................ 17
4.3.3 Receiver Module (RX) ............................................................................................................ 19
4.3.4 Baseband Processor Module (BBP)......................................................................................... 21
4.3.5 Traffic Controller Module (TC)............................................................................................... 23
4.3.6 High Power RF Power Amplifier Module (HPA) ................................................................... 25
5 PROGRAMMING, TEST, AND DIAGNOSTICS...................................................................................... 30
5.1 VIDA DEVICE MANAGER ............................................................................................................... 30
5.2 TEST AND DIAGNOSTICS ............................................................................................................... 30
6 REFERENCE MANUALS............................................................................................................................31
7 CUSTOMER SERVICE................................................................................................................................ 32
7.1.1 Technical Support.................................................................................................................... 32
7.1.2 Customer Resource Center ...................................................................................................... 32
WARRANTY......................................................................................................................................................... 33
MM-015039-001, Rev. A
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TABLE OF CONTENTS
Section Page
FIGURES
Figure 3-1: MASTR V Multi-Channel Base Station Equipped with One (1) RF Channel.......................................12
Figure 4-1: MASTR V 700/800 MHz Base Station Shelf equipped with Four (4) RF Channels .............................13
Figure 4-2: 14-Slot Base Station Shelf .....................................................................................................................15
Figure 4-3: MASTR V HPA/PS Shelf Assembly (Shown with HPA and PS Installed)...........................................16
Figure 4-4: Ethernet Switch Module ........................................................................................................................17
Figure 4-5: TX Module.............................................................................................................................................18
Figure 4-6: RX Module ............................................................................................................................................20
Figure 4-7: BaseBand Processor Module .................................................................................................................23
Figure 4-8: Traffic Controller Module......................................................................................................................25
Figure 4-9: High Power Amplifier Module with Integrated Linearizer....................................................................26
Figure 4-10: Power Supply Module..........................................................................................................................28
TABLES
Table 4-1: Typical Module Slot Assignments for 700/800 MHz MASTR V Base Stations.....................................13
Table 4-2: Typical Module Slot Assignments for VHF or UHF MASTR V Base Stations......................................14
Table 4-3: Module Slot 1 through 14 – DC Power Connector Pinout ......................................................................15
Table 4-4: E-Switch Module Connections................................................................................................................16
Table 4-5: Ethernet Switch – Front Panel Indicators and Controls...........................................................................17
Table 4-6: TX Module Connections .........................................................................................................................18
Table 4-7: TX Module – Front Panel Indicators and Controls .................................................................................19
Table 4-8: RX Module Connections.........................................................................................................................20
Table 4-9: RX Module – Front Panel Indicators and Controls .................................................................................20
Table 4-10: BBP Module Connections.....................................................................................................................22
Table 4-11: BBP Module – Front Panel Indicators and Controls .............................................................................22
Table 4-12: TC Module Connections .......................................................................................................................24
Table 4-13: TC Module – Front Panel Indicators and Controls................................................................................24
Table 4-14: HPA Front Panel Indicators and Switches ............................................................................................27
Table 4-15: Backplane – Module DC Power Connector Pinout ...............................................................................29
Table 4-16: PS Front Panel Indicators and Switches................................................................................................29
Table 6-1: Reference Manuals..................................................................................................................................31
MM-015039-001, Rev. A
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1 REGULATORY AND SAFETY INFORMATION
1.1 SAFETY SYMBOL CONVENTIONS
The following conventions are used throughout this manual to alert the user to general safety precautions
that must be observed during all phases of operation, service, and repair of this product. Failure to comply
with these precautions or with specific warnings elsewhere violates safety standards of design,
manufacture, and intended use of the product. Harris Corporation assumes no liability for the customer's
failure to comply with these standards.
The WARNING symbol calls attention to a procedure, practice, or the like, which,
if not correctly performed or adhered to, could result in personal injury. Do not
proceed beyond a WARNING symbol until the conditions identified are fully
understood or met.
CAUTION
The CAUTION symbol calls attention to an operating procedure, practice, or the like,
which, if not performed correctly or adhered to, could result in damage to the
equipment or severely degrade equipment performance.
The NOTE symbol calls attention to supplemental information, which may improve
system performance or clarify a process or procedure.
The ESD symbol calls attention to procedures, practices, or the like, which could
expose equipment to the effects of Electro-Static Discharge. Proper precautions must be
taken to prevent ESD when handling circuit boards or modules.
The electrical hazard symbol is a WARNING indicating there may be an electrical
shock hazard present.
1.2 IMPORTANT SAFETY INSTRUCTIONS
1. Read these instructions.
2. Keep these instructions.
3. Heed all warnings.
4. Follow all instructions.
5. Do not use this apparatus near water.
6. Clean only with dry cloth.
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7. Do not block any ventilation openings. Install in accordance with the manufacturer’s instructions.
8. Do not install near any heat sources such as radiators, heat registers, stoves, or other apparatus
(including amplifiers) that produce heat.
9. Do not defeat the safety purpose of the polarized or grounding-type plug. A polarized plug has two
blades with one wider than the other. A grounding type plug has two blades and a third grounding
prong. The wide blade or the third prong is provided for your safety. If the provided plug does not fit
into your outlet, consult an electrician for replacement of the obsolete outlet.
10. Protect the power cord from being walked on or pinched particularly at plugs, convenience
receptacles, and the point where they exit from the apparatus.
11. Only use attachments/accessories specified by the manufacturer.
12. Use only with the cart, stand, tripod, bracket, or table specified by the manufacturer, or sold with the
apparatus. When a cart is used, use caution when moving the cart/apparatus combination to avoid
injury from tip-over.
13. Refer all servicing to qualified service personnel. Servicing is required when the apparatus has been
damaged in any way, such as when the power-supply cord or plug is damaged, liquid has been spilled
or objects have fallen into the apparatus, the apparatus has been exposed to rain or moisture, does not
operate normally, or has been dropped.
14. Warning: The lightning bolt signifies an alert to the user of the presence of un-insulated “dangerous
voltage” within the product’s enclosure that may be of significant magnitude to constitute a risk of
electric shock to persons.
15. Warning: The exclamation point alerts the user to the presence of important operation and
maintenance (service) instructions in the literature accompanying the product.
16. Outdoor Use Warning: To reduce the risk of Fire or Electric Shock, Do Not Expose This Apparatus to
Rain or Moisture.
17. Wet Location Warning: Apparatus shall not be exposed to dripping or splashing and no objects filled
with liquids, such as vases, shall be placed on the apparatus.
MM-015039-001, Rev. A
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1.3 MAXIMUM PERMISSIBLE EXPOSURE LIMITS
DO NOT TRANSMIT with this base station and antenna when persons are within the MAXIMUM
PERMISSIBLE EXPOSURE (MPE) Radius of the antenna. The MPE Radius is the minimum distance
from the antenna axis that ALL persons should maintain in order to avoid RF exposure higher than the
allowable MPE level set by the FCC.
Failure to observe these limits may allow all persons within the MPE radius to
experience RF radiation absorption, which exceeds the FCC maximum permissible
exposure (MPE) limit. It is the responsibility of the base station operator to ensure
that the maximum permissible exposure limits are observed at all times during
base station transmission. The base station licensee is to ensure that no bystanders
are within the radius limits.
1.4 DETERMINING MPE RADIUS
THE MAXIMUM PERMISSIBLE EXPOSURE RADIUS is unique for each site and is determined
during site licensing time based on the complete installation environment (i.e. co-location, antenna type,
transmit power level, etc.). Determination of the MPE distance is the responsibility of the installation
licensee. Calculation of the MPE radius is required as part of the site licensing procedure with the FCC.
1.5 SAFETY TRAINING INFORMATION
Your MASTR®V base station generates RF electromagnetic energy during
transmit mode. This base station is designed for and classified as “occupational
use only” meaning it must be used only in the course of employment by individuals
aware of the hazards and the ways to minimize such hazards. This base station is
not intended for use by the “general population” in an uncontrolled environment.
It is the responsibility of the base station licensee to ensure that the maximum
permissible exposure limits determined in the previous section are observed at all
times during transmission. The base station licensee is to ensure that no
bystanders come within the radius of the maximum permissible exposure limits.
When licensed by the FCC, this base station complies with the FCC RF exposure limits when persons are
beyond the MPE radius of the antenna. In addition, your Harris base station installation complies with the
following Standards and Guidelines with regard to RF energy and electromagnetic energy levels and
evaluation of such levels for exposure to humans:
• FCC OET Bulletin 65 Edition 97-01 Supplement C, Evaluating Compliance with FCC Guidelines for
Human Exposure to Radio Frequency Electromagnetic Fields.
• American National Standards Institute (C95.1 – 1992), IEEE Standard for Safety Levels with Respect
to Human Exposure to Radio Frequency Electromagnetic Fields, 3 kHz to 300 GHz.
• American National Standards Institute (C95.3 – 1992), IEEE Recommended Practice for the
Measurement of Potentially Hazardous Electromagnetic Fields – RF and Microwave.
MM-015039-001, Rev. A
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CAUTION
To ensure that your exposure to RF electromagnetic energy is within the FCC
allowable limits for occupational use, do not operate the base station in a manner that
would create an MPE distance in excess of that allowable by the FCC.
CAUTION
This equipment generates or uses radio frequency energy. Any changes or
modifications to this equipment not expressly approved by Harris Corporation may
cause harmful interference and could void the user’s authority to operate the
equipment.
1.6 REGULATORY APPROVALS
1.6.1 Federal Communications Commission
The transmitting device described within this manual has been tested and found to meet the following
regulatory requirements.
FCC FILING DATA FOR MASTR V BASE STATION
FREQUENCY
BAND
(MHz)
POWER OUTPUT
(ADJUSTABLE)
(Watts)
FCC TYPE
ACCEPTANCE NUMBER APPLICABLE
FCC RULES
764 – 776 10 – 100 OWDTR-0057E Part 90
851 – 869 10 – 100 OWDTR-0053E Part 90
This receiver associated with this transmitting device has been tested and declared to meet the regulatory
requirements defined in the following sub-sections. Associated FCC labeling may be found on page 2.
1.6.1.1 FCC Compliance
This device complies with Part 15 of the FCC Rules. Operation is subject to the condition that this device
does not cause harmful interference.
1.6.1.1.1 Information to the User
This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant
to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful
interference in a residential installation. This equipment does generate, use, 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 or more of the following measures:
• Reorient or relocate the receiving antenna.
• Increase the separation between the equipment and receiver.
• Connect the equipment into an AC outlet on a circuit different from that which the receiver is
connected.
• Consult the dealer or an experienced radio/TV technician for help.
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1.6.2 Industry Canada
INDUSTRY CANADA FILING DATA FOR MASTR V BASE STATION
FREQUENCY
BAND
(MHZ)
INDUSTRY CANADA
CERTIFICATION NUMBER APPLICABLE INDUSTRY CANADA
RULES
764 – 776 3636B-0057 RSS-119
851 – 869 3636B-0053 RSS-119
This Class A digital apparatus complies with Canadian ICES-003.
Cet appareil numérique de la classe A est conforme à la norme NMB-003 du Canada.
The installer of this radio equipment must ensure that the antenna is located or
pointed such that it does not emit RF field in excess of Health Canada limits for the
general population; consult Safety Code 6, obtainable from Heath Canada’s website
www.hc-sc.gc.ca/rpb.
MM-015039-001, Rev. A
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2 SPECIFICATIONS∗ (GENERAL)
2.1 GENERAL SPECIFICATIONS
Multi-Channel Transceiver Shelf Assembly: 5 RU – T/R Shelf
HPA/PS Shelf Assembly (1 per channel): 2 RU – HPA/PSU Shelf
Duty Cycle (EIA) Continuous: Transmit and Receive at 100%
Operating Temperature: -22°F to +140°F (-30°C to +60°C)
Humidity (EIA): 90% at 122°F (50°C) Non-condensing
AC Power Supply:
Input Power Source: 90-240 VAC (nominal), 47~63 Hz
Source Power Drain: 1000 watts per channel (max.) @ 120 VAC
600 watts per channel (typical) @ 120 VAC
Input Power Efficiency: >85% at full load (120 VAC)
>82.5% at full Load (<100 VAC)
Power Supply Outputs:
+28.0 VDC ± 0.2V at 25.0 Amps
+12.0 VDC ± 0.2V at 2.8 Amps
+5.0 VDC ± 0.2V at 28.0 Amps
Antenna Connection:
Transmitter: Type N Female
Receiver: SMA Female
Altitude:
Operating: Up to 15,000 ft (4,570 m)
Shippable: Up to 50,000 ft (15,250 m)
∗ These specifications are intended primarily for the use of the service technician. Refer to the product data sheet for the
complete specifications.
MM-015039-001, Rev. A
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2.1.1 Transmitter
Frequency Range: 764 – 776 MHz
851 – 869 MHz
RMS RF Output Power*: 10 - 100 Watts
RF Output Impedance: 50 ohms
Power control accuracy: -0/+0.79 dB
Frequency Stability: < 0.1 ppm external freq. std.
Frequency Step Size: 6.25 kHz
Tuning Range: ± 1 MHz (min)
Nominal TX Deviation: 2.544 to 3.111 kHz (per TIA-102)
Modes of Modulation: C4FM, WCQPSK, HDQPSK
Modulation Emission Spectrum: Per FCC Part 90
Incidental AM / AM Hum & Noise: > 50 dBc
Radiated and Conducted Spurious Emissions: < -70 dBc
* Rated power output is measured at the transmitter’s power amplifier output connector. Optional items such as
power measuring devices and/or duplexers will introduce loss between the transmitter output connector and the
station cabinet output connector. This loss will reduce the available power at the station connector.
2.1.2 Receiver
Frequency Range: 799 – 816 MHz
RF Input Impedance: 50 ohms
Channel Spacing: 12.5 kHz
Sensitivity: ≥ -119 dBm (5% BER) static, -111 faded (EIA)
Selectivity: ≥ 60 dB Per TIA-102
Frequency Stability: < 0.1 ppm external freq. std.
Signal Displacement Bandwidth: ± 1.0 kHz Per TIA-102
Spurious and Image Rejection: ≥ 90 dB
MM-015039-001, Rev. A
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3 INTRODUCTION
The MASTR V Base Station is a P25 Phase I capable transceiver. The station is fully upgradable to P25
Phase II. The MASTR V Base Station is a digital, IP based, LMR communications base station operating
within a compact shelf design. It supports IP-based remote code uploads and configuration. IP-based
programming may be accomplished using the Device Manager programming tool. A built-In Self Test
(BIST) feature provides improved performance through remote diagnosis which minimizes down time.
The MASTR V Base Station uses a 14-slot modular multi-channel T/R shelf assembly (refer to
Figure 3-1) and a 2-slot High Power Amplifier/Power Supply (HPA/PS) shelf assembly. Modules may
include BaseBand Processors, Traffic Controllers, TX, and RX modules. Blank panels for the main
module slots (MA-555413) and for the E-Switch slots (MA-555417) are installed in unused slots.
The TX module uses a factory programmable IQ modulator circuit capable of generating most any LMR
modulation format into a Direct Digital Synthesis (DDS) TX exciter circuit. Additionally, the HPA may
be equipped with a Linearizer module for improved amplitude and phase noise characteristics in S-C4FM
or similar modulation modes.
The RX module includes integrated front end and IF circuitry. The RX module also uses IQ
demodulation circuitry. The IQ demodulator is factory programmable and can decode most any
amplitude and phase modulation characteristic, making it capable of receiving most any analog or digital
LMR modulation format.
The Multi-channel T/R shelf requires +12 VDC and +5 VDC. The HPA requires +28 VDC. The station
may be equipped with a 120/240 VAC switching power supply. The T/R Shelf occupies 5-RU spaces.
The HPA/PS shelf occupies 2-RU spaces (per TX channel).
Figure 3-1: MASTR V Multi-Channel Base Station Equipped with One (1) RF Channel
MM-015039-001, Rev. A
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4 MASTR V BASE STATION OVERVIEW
4.1 MULTI-CHANNEL BASE STATION SHELF ASSEMBLY
The MASTR V multi-channel base station shelf assembly is a unified subrack design providing 14
identical vertical module slots. Also included are two (2) horizontal slots located under the 14 vertical
slots, and used to connect the built-in main and redundant Ethernet Switch modules.
A backplane assembly (refer to Figure 4-2) provides data and DC power connections to each vertical slot,
and the two Ethernet Switch module slots. The multi-channel base station shelf, and each module, is
equipped with a pull handle for improved handling of the equipment.
When equipped for multiple channel 700/800 MHz operation, the 14-slots may be populated as shown in
Figure 4-1 with the modules listed in Table 4-1. The VHF and UHF receiver modules require two (2)
shelf slots; therefore, module assignment varies slightly (refer to Table 4-2). Other module combinations
and slot assignments are possible depending on the specific LMR application and system requirements.
Table 4-1: Typical Module Slot Assignments for 700/800 MHz MASTR V Base Stations
SLOT # MODULE SLOT # MODULE
1 Transmitter Module (Channel 1) 8 Transmitter Module (Channel 3)
2 Receiver Module (Channel 1) 9 Receiver Module (Channel 3)
3 Transmitter Module (Channel 2) 10 Transmitter Module (Channel 4)
4 Receiver Module (Channel 2) 11 Receiver Module (Channel 4)
5 Baseband Module (Channel 1 / 2) 12 Baseband Module (Channel 3 / 4)
6 Traffic Controller (Channel 1) 13 Traffic Controller (Channel 3)
7 Traffic Controller (Channel 2) 14 Traffic Controller (Channel 4)
E1 E-Switch # 1 (Main) E2 E-Switch #2 (Redundant)
Figure 4-1: MASTR V 700/800 MHz Base Station Shelf equipped with Four (4) RF Channels
MM-015039-001, Rev. A
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Table 4-2: Typical Module Slot Assignments for VHF or UHF MASTR V Base Stations
SLOT # MODULE SLOT # MODULE
1 Transmitter Module (Channel 1) 10 Transmitter Module (Channel 3)
2 – 3 Receiver Module (Channel 1) 11 – 12 Receiver Module (Channel 3)
4 Transmitter Module (Channel 2) 13 Baseband Module for Ch. 3
5 – 6 Receiver Module (Channel 2) 14 Traffic Controller (Channel 3)
7 Baseband Module for Ch. 1 / 2 E1 E-Switch # 1 (Main)
8 Traffic Controller (Channel 1) E2 E-Switch #2 (Redundant)
9 Traffic Controller (Channel 2)
4.1.1 Multi-Channel Base Station Shelf
The MASTR V Multi-channel Base Station shelf model EA-555002-001 (refer to Figure 4-2) is a 14-slot,
5-RU, shelf assembly. The shelf provides a modular environment supporting most any combination of
MASTR V modules.
Assembled to the rear of the shelf is a unified backplane assembly. The backplane interfaces all data,
frequency reference, and DC power connections from the 14 module slots, to the two (2) horizontally
positioned Ethernet switch modules.
Two (2) connector assemblies are provided for each module slot, a 3-pin connector for DC power (J101
through J114), and a 95-pin connector for data/small signals (J1 through J14). The DC power connector
pinout is provided in Table 4-3. Each E-Switch module slot uses a 120-pin signal connector (40 balanced
signal pairs, each with an individual shield) for optimal signal performance. Additionally, two (2) guide
pins are used in each module slot, one at each end of every connector row. The guide pins properly align
the module with the backplane connectors as they slide together.
4.1.1.1 DC Power Input Connections
The backplane’s DC power distribution may be configured to use one or both DC power input
connections, J30 and J31. DC power input to slots 1 through 7 is primarily connected to J30. DC power
input to slots 8 through 14 is primarily connected to J31. Removing the two fuses (F1 and F2) from the
backplane allows independent DC operation of slots 1 through 7, and slots 8 through 14. This
configuration is commonly used for one or more of the following reasons:
• To minimize channel failure (multi-channel configurations) in the event one of the supporting power
supplies fail, or a module failure unexpectedly loads the DC input.
• To distribute current loading between power supply modules.
Alternately, if the combined current drain of each module installed in the shelf does not exceed the power
supply’s maximum current ratings, then the backplane may be configured for a common DC input.
Installing 30 amp fuses into fuse locations F1 and F2 will parallel the +5 VDC and +12 VDC input
connections. This configuration allows either J30 or J31 to act as a common DC power source for slots 1
through 14.
It is important to understand that when F1 and F2 are installed, DC input connectors J30 and J31 are not
isolated; therefore, connecting DC power sources to each connector simultaneously is not recommended
in this configuration. Also, fuses F1 and F2 are not used as safety devices, but rather as high current (low
resistance) jumpers.
MM-015039-001, Rev. A
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Table 4-3: Module Slot 1 through 14 – DC Power Connector Pinout
CONNECTOR PIN DESCRIPTION DIAGRAM
1 + 5 VDC
2 – Ground
J101 – J114
3 + 12 VDC
Figure 4-2: 14-Slot Base Station Shelf
Pin 1
Pin 2
Pin 3
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4.2 HIGH POWER AMPLIFIER/POWER SUPPLY SHELF ASSEMBLY
The High Power Amplifier (HPA) (refer to Section 4.3.6) and the Power Supply (PS) (refer to Section
4.3.6.1) are installed in a 19” rack mountable, 2-slot metal shelf, model MA-555003 (refer to Figure 4-3).
The HPA/PS shelf is a mechanical-only assembly with no electrical components.
Figure 4-3: MASTR V HPA/PS Shelf Assembly (Shown with HPA and PS Installed)
4.3 MASTR V MODULES
For P25 operation, the following station modules may be installed in the MASTR V Base Station shelf:
• TX module
• RX module
• Baseband Processor Module
• Traffic Controller Module
• High Power Amplifier Module
• Power Supply Module
• Ethernet Switch
4.3.1 Ethernet Switch (E-SWITCH)
Communications with the MASTR V base station modules is provided by a built-in Ethernet Switch
module EA-555012-001 located under main module shelf. A second position under the main module
shelf is provided for a redundant Ethernet Switch module.
Ethernet communications are utilized to pass voice and data transmissions, management, and control data
between the Traffic Controller and supporting MASTR V modules via the Ethernet Switches.
Table 4-4: E-Switch Module Connections
LOCATION CONNECTOR DESCRIPTION
RJ-45 Factory Service Communications Port Circuit Board (side)
4-Pin Factory Service DC Power
120-Pin Backplane Connection (40 pair w/Shield) Rear Panel
3-Pin Backplane DC Power (refer to Table 4-3)
MM-015039-001, Rev. A
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Table 4-5: Ethernet Switch – Front Panel Indicators and Controls
INDICATOR/CONTROL INDICATOR COLOR DESCRIPTION
OFF No Status
GREEN SOLID Active Switch
GREEN
FLASHING Standby Switch
RED SOLID Major Fault
RED FLASHING Minor Fault
YELLOW SOLID Flash Write
Status LED
YELLOW
FLASHING Program
Downloading
Reset Switch N/A Soft Module Reset
Figure 4-4: Ethernet Switch Module
4.3.2 Transmitter Module (TX)
The MASTR V TX module series EA-555008 provides a highly stable +6 dBm RF output to drive the
High Power Amplifier module. The MASTR V TX module uses a Direct Digital Synthesizer (DSS)
which optimizes the modulation characteristics of the TX module. DSS can digitally create a precision
waveform or modulation scheme from a single on-board oscillator. This capability makes the MASTR V
MM-015039-001, Rev. A
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TX module one of the most versatile transmitter modules in the North American Land Mobile Radio
(LMR) and European Professional Mobile Radio (PMR) marketplace.
Figure 4-5: TX Module
All electrical connections used during normal operation are located on the rear panel (refer to Figure 4-5).
Control, data, small signal, and DC power connections mate with the unified backplane. A low level TX
exciter output connector is located on the rear panel.
Table 4-6: TX Module Connections
LOCATION CONNECTOR DESCRIPTION
SMB Transmitter Exciter Output
95-Pin Backplane Small Signal Connector (5X19)
Rear Panel
3-Pin Backplane DC Power (refer to Table 4-3)
RJ-45 Factory Service Communications Port Circuit Board (side)
4-Pin Factory Service DC Power
MM-015039-001, Rev. A
19
Table 4-7: TX Module – Front Panel Indicators and Controls
INDICATOR/CONTROL INDICATOR COLOR DESCRIPTION
OFF No Status
GREEN SOLID Transmitting
GREEN FLASHING Exciter Mode
RED SOLID Major Fault
RED FLASHING Minor Fault
YELLOW SOLID Flash Write
Status LED
YELLOW FLASHING Program Downloading
OFF No Activity
GREEN SOLID Ethernet Activity
GREEN FLASHING Undefined (future use)
RED SOLID Major Fault
RED FLASHING Minor Fault
YELLOW SOLID Undefined (future use)
Activity LED
(Ethernet)
YELLOW FLASHING Undefined (future use)
4.3.3 Receiver Module (RX)
The MASTR V Receiver (RX) modules, model EA-555007, are dual-IF conversion receivers. The RX
modules are currently available in the 700/800 dual band, model EA-555007-011, with planned releases
for VHF and UHF model band splits.
The receiver uses a Sigma-Delta analog to digital converter to process the incoming IF signal. The output
of the analog-to-digital converter is a complex pair of I/Q baseband digital signals. The MASTR V RX
module supports a wide range of modulation waveforms required for current and next generation public
safety two-way radio communications.
After IF filtering and down-conversion, received signals are digitized into I and Q information and sent to
the Baseband Processor module via the backplane Ethernet. The Baseband Processor module provides
the narrow channel filtering and demodulation. The narrow channel filters and digital demodulation is
performed by the system DSP, giving the MASTR V receiver the flexibility needed in current and future
LMR communications systems.
All bands of MASTR V RX modules share common design features and meet stringent receiver
specifications including the following:
• High intercept point.
• Low noise figure.
• 110.2 MHz IF chosen for all bands of the MASTR V.
• Automatic Level Control.
• Built-in 10 MHz reference; switchable to external reference derived from the baseband module
(which is compatible with an external frequency standard used for Simulcast).
MM-015039-001, Rev. A
20
• Low side LO injection for superior noise performance (700/800 MHz module).
• Built-in hardware diagnostics (voltage supplies, PLL Lock).
• Built-in analog FM test mode.
• Raw IQ data is sent to the BaseBand Processor module for demodulation.
Figure 4-6: RX Module
Table 4-8: RX Module Connections
LOCATION CONNECTOR DESCRIPTION
SMA Receiver Antenna Input
3.5 mm Stereo Phone
Jack Analog Receiver Audio (Test mode only)
95-Pin Backplane Small Signal Connector (5X19)
Rear Panel
3-Pin Backplane DC Power (refer to Table 4-3)
RJ-45 Factory Service Communications Port Circuit Board (side)
4-Pin Factory Service Port (DC Power)
Table 4-9: RX Module – Front Panel Indicators and Controls
INDICATOR/CONTROL INDICATOR COLOR DESCRIPTION
Off No Status
Green Solid Receiving
Green Flashing Undefined (future use)
Red Solid Major Fault
Red Flashing Minor Fault
Yellow Solid Flash Write
Status LED
Yellow Flashing Program Downloading
MM-015039-001, Rev. A
21
INDICATOR/CONTROL INDICATOR COLOR DESCRIPTION
Off No Activity
Green Solid Ethernet Activity
Green Flashing Undefined (future use)
Red Solid Major Fault
Red Flashing Minor Fault
Yellow Solid Undefined (future use)
Activity LED
(Ethernet)
Yellow Flashing Undefined (future use)
4.3.4 Baseband Processor Module (BBP)
The Baseband Processor (BBP) module model EA-555005-001 provides several functions within the
MASTR V P25 Base Station:
• Generates all RX, TX, and Control Processing for one or more RF channels.
• Provides a data interface between the Traffic Controller the TX and RX modules.
• Interface between the Simulcast T1 multiplexer and the base station.
• Generates a heartbeat message used to monitor the health of the base station modules.
• Performs resynchronization of transmitted data packets.
When a MASTR V Base Station is powered up, the TX, RX, and HPA modules will perform a discovery
period where they await a software request message from the BBP module assigned to manage that slot.
When the message is received, the module will respond with a software response message that prompts
the BBP to send the modules a personality message.
The personality message will contain all personality data (default initialization parameters). The modules
respond with an acknowledgement for the personality message, and then initialize themselves according
to the personality data in the personality message. The BBP module sends the modules a message to go
operational. Once operational, the discovery and initialization phase is complete. The BBP module
periodically monitors the modules through heartbeat messages.
4.3.4.1 Base Station TX Interface and Control
The BBP module performs a vital role during all modes of operation, especially during P25 Simulcast TX
site’s transmit operations. During P25 simulcast, the BBP module receives the transmit packet timing and
re-synchronization data from the Control Point via the MUX. This information, along with the voice
packets routed through the Ethernet Switch’s MLAN connection, is reunited to form the P25 transmitter
messages. Final synchronization of the P25 transmitter packets, relative to the required system/site
timing, is performed and the data is sent to the TX module(s). The BBP module manages only the control
operations for the TX modules. Inbound receiver communications from mobile and portables is
processed in the associated channel’s Traffic Controller and sent to the Control Point via the MLAN
connection to the Cisco® switch.
4.3.4.2 Heartbeat Messaging
Heartbeat messaging is used to monitor the condition of the TX, RX, and HPA modules. Once
operational, the BBP module sends out heartbeat messages to each module. When a heartbeat message is
received by a module, the receiving module then sends a heartbeat message back to the BBP module.
MM-015039-001, Rev. A
22
The heartbeat monitor task keeps track of the time-stamps of the received heartbeat messages. A fault is
registered if a heartbeat message is not received within a predetermined time-frame. The heartbeat
monitor also keeps track of certain fault conditions.
4.3.4.3 Resynchronization
During P25 Simulcast operation, the MASTR V BBP module performs timing and resynchronization of
data packets sent to the TX module. A predetermined time delay is applied to the packets relative to a
precision world time clock signal provided by an external, highly stable, GPS based time clock. A GPS
receiver is installed at each Simulcast TX Site and Control Point to provide the best possible
synchronization between all TX sites.
Table 4-10: BBP Module Connections
LOCATION CONNECTOR DESCRIPTION
SMA 10 MHz Time Base Input
DB-15HD Simulcast Channel 1
DB-15-HD Simulcast Channel 2
RJ-45 Ethernet MLAN
95-Pin Backplane Small Signal Connector (5X19)
Rear Panel
3-Pin Backplane DC Power (refer to Table 4-3)
RJ-45 Factory Service Port (Signaling) Circuit Board (side)
4-Pin Factory Service Port (DC Power)
Front Panel USB Field Service Communications Port
Table 4-11: BBP Module – Front Panel Indicators and Controls
INDICATOR/CONTROL INDICATOR COLOR DESCRIPTION
Off No Power
Green Solid BP Clock Controller
Green Flashing BP Clock Standby
Red Solid External Reference
Failed
Red Flashing Internal Reference Failed
Yellow Solid Undefined (future use)
Reference LED
Yellow Flashing Undefined (future use)
Off No Activity
Green Solid Channel Active
Green Flashing Undefined (future use)
Red Solid Major Fault
Red Flashing Minor Fault
Channel LED
Yellow Solid Undefined (future use)
MM-015039-001, Rev. A
23
INDICATOR/CONTROL INDICATOR COLOR DESCRIPTION
Yellow Flashing Undefined (future use)
Off No Status
Green Solid OK Status
Green Flashing Undefined (future use)
Red Solid Major Fault
Red Flashing Minor Fault
Yellow Solid Flash Write
Status LED
Yellow Flashing Program Downloading
Off No Activity
Green Solid Ethernet Activity
Green Flashing Undefined (future use)
Red Solid Major Fault
Red Flashing Minor Fault
Yellow Solid Undefined (future use)
Activity LED
Yellow Flashing Undefined (future use)
Reset Switch N/A Software Reset
Figure 4-7: BaseBand Processor Module
4.3.5 Traffic Controller Module (TC)
The Traffic Controller (TC) module model EA-555004-001 performs interfacing for one (1) MASTR V
P25 RF channel. The TC module provides the following services:
• Data and control information for one (1) TX module.
• Data and control information for one (1) RX module.
• Generates the P25-formatted TX messages for over-the-air transmission.
MM-015039-001, Rev. A
24
• Provides VoIP interfacing to other P25 sites.
The TC module manages data and control information for one (1) TX and one (1) RX channel module.
Incoming data from dispatch points is processed into over-the-air P25-formatted TX messages. The TC
module processes decoded radio information received from the BBP module, and handles all aspects of
trunking (subscriber unit validation, assigned channels, queuing, etc.).
During P25 operation, the TC module interprets and directs inbound calls. It issues appropriate control
commands to and from the TX and RX modules, including how to handle data between the base station
and the Control Point.
The TC module also handles VoIP interfacing to other P25 sites. Receiver packets are formatted into a
VoIP-capable protocol and sent to other predefined P25 sites for retransmission.
Table 4-12: TC Module Connections
LABEL CONNECTOR DESCRIPTION
RJ-45 Ethernet MLAN
RJ-45 Ethernet PLAN
95-Pin Backplane Small Signal Connector (5X19)
Rear Panel
3-Pin Backplane DC Power (refer to Table 4-3)
RJ-45 Factory Service Communications Port Circuit Board (side)
4-Pin Factory Service DC Power
Front Panel USB Service Communications Port
Table 4-13: TC Module – Front Panel Indicators and Controls
INDICATOR/CONTROL INDICATOR COLOR DESCRIPTION
Off No Status
Green Solid RX/TX C-LAN
Green Flashing Undefined (future use)
Red Solid Major Fault
Red Flashing Minor Fault
Yellow Solid Flash Write
Status LED
Yellow Flashing Program Downloading
Off No Activity
Green Solid Ethernet Activity
Green Flashing Undefined (future use)
Red Solid Major Fault
Red Flashing Minor Fault
Yellow Solid Undefined (future use)
Activity LED
Yellow Flashing Undefined (future use)
S1 and S2 LED Undefined Undefined (future use)
MM-015039-001, Rev. A
25
Figure 4-8: Traffic Controller Module
4.3.6 High Power RF Power Amplifier Module (HPA)
The RF High Power Amplifier (HPA) assembly EA-555014 (shown in Figure 4-9), amplifies the exciter
output to the rated station output power level. This module contains a power module, amplifier drivers
and power control circuitry required for power amplification. It is currently available in the land mobile
radio 800 MHz band.
The Power Amplifier assembly is a continuous duty, solid state, wide-band RF power amplifier. Its main
function is to amplify the 0 dBm signal from the TX module to the rated RF output at the antenna port.
The RF output of the Power Amplifier Assembly is typically 110 Watts for VHF (adjustable from 10 to
110 Watts), and 100 Watts for UHF, 700 and 800 MHz (adjustable from 10 to 100 Watts) as measured at
the PA output port.
The MASTR V HPA series EA-555014 is also equipped with a RF linearizer circuit to improve RF
performance. The RF linearizer samples the RF output of the HPA, and provides waveform correction to
the RF input signal relative to its RF output characteristics. This improves waveform distortion.
MM-015039-001, Rev. A
26
Figure 4-9: High Power Amplifier Module with Integrated Linearizer
MM-015039-001, Rev. A
27
Table 4-14: HPA Front Panel Indicators and Switches
INDICATOR/CONTROL INDICATOR COLOR DESCRIPTION
Off
TX Disable LED
Yellow TX Disabled
Off No Status
Green Solid Pa Active
Green Flashing TX Inhibit
Red Solid Major Fault
Red Flashing Minor Fault
Yellow Solid Flash Write
Status LED
Yellow Flashing Program Downloading
Off No Activity
Green Solid Ethernet Activity
Green Flashing Undefined (future use)
Red Solid Major Fault
Red Flashing Minor Fault
Yellow Solid Undefined (future use)
Activity LED
Yellow Flashing Undefined (future use)
TX Disable Switch N/A Hard TX Disable
4.3.6.1 Power Supply Module (PS)
The MASTR V Power Supply (PS) module EA-555011-001 (refer to Figure 4-10) is a continuous duty
switching power supply. It operates from an input of 85 VAC to 265 VAC at 47 Hz to 63 Hz (1000 Watts
maximum). The PSU provides a maximum of 875 Watts total output power divided among the following
three (3) DC outputs:
• +28 VDC at 25 Amps.
• +12 VDC at 2.8 Amps.
• +5.0 VDC at 28 Amps.
The MASTR V PS includes front panel LED status indicators for each DC output, an AC Power input
LED, and a front panel ON/OFF switch used to disable the power supply and built-in cooling fan.
MM-015039-001, Rev. A
28
Three (3) DC power output connections are provided; one (1) to provide DC current to the MASTR V
multi-channel shelf, another to provide DC current to the HPA module, and a spare DC connection.
The MASTR V PS is a negative ground power supply (the negative lead of each DC output is tied to
chassis ground). Over voltage, under voltage, and over current protection is built-into the AC input, and
each DC output. In the event one of the protection circuits is triggered, only the affected DC output is
shut down until the protection circuit is reset.
Figure 4-10: Power Supply Module
MM-015039-001, Rev. A
29
Table 4-15: Backplane – Module DC Power Connector Pinout
CONNECTOR
LABEL DESCRIPTION DIAGRAM
(As viewed when facing the rear of the PS)
+5V/+12VDC Shelf To MASTR V T/R Shelf
+28VDC HPA To HPA Module
5V,12V VDC AUX Auxiliary/Spare
Table 4-16: PS Front Panel Indicators and Switches
INDICATOR/CONTROL INDICATOR COLOR DESCRIPTION
Off OFF or not operational
+28 VDC LED
Green Solid Operational
Off OFF or not operational
+12 VDC LED
Green Solid Operational
Off OFF or not operational
+5 VDC LED
Green Solid Operational
Off OFF or not operational
AC Power LED
Green Solid Operational
ON/OFF Switch N/A AC Power ON/OFF
MM-015039-001
30
5 PROGRAMMING, TEST, AND DIAGNOSTICS
5.1 VIDA DEVICE MANAGER
Setup, configuration, and programming of a MASTR V P25 Trunked base station is accomplished
through the use of the VIDA Device Manager programming software tool. VIDA Device Manager is an
easy-to-use programming tool designed around a Windows-based file management system that permits
users to configure and manage devices within their system. The user can save/open personalities using
the Windows file system.
The user interface, known as the Device Management Console (DMC), allows users to configure and
manage IP-accessible devices in their MASTR V radio system. It allows users to edit device Personalities
and permits users to perform actions such as the following:
• Reset
• Read Version
• Load Code
• Read Personality
• Write Personality
The DMC stores device connection information and all personalities (by default) for the supported
devices within the radio system. The information stored includes device definitions, device plug-ins,
device Client plug-ins, device personalities, device code, device connections, and device details. The
Repository provides an interface to access, modify, and create the information.
5.2 TEST AND DIAGNOSTICS
The MASTR V base station has built-in self diagnostics and fault reporting. Station faults may be
remotely monitored via fault reporting from one or more of the following resources:
• Via the VIDA Network through the Regional Network Manager.
• By telnet session while connected locally to a MASTR V base station.
The TC module and BBP modules are capable of reporting fault information via the VIDA Network to
the Regional Network Manager (RNM). The RNM has the ability to “Poll” the status of certain
equipment, and “Trap” responses to log files. For more information regarding RNM polling and
trapping, refer to the Regional Network Manager User Manual: MM1000018633.
MM-015039-001, Rev. A
31
6 REFERENCE MANUALS
The following table provides a listing of individual manuals that may be useful when installing and
maintaining a MASTR V P25 Base Station.
Table 6-1: Reference Manuals
REFERENCES AND STANDARDS MANUALS MANUAL NUMBER
Standard For Site Grounding and Protection Manual AE/LZT 123 4618/1
Electrostatic Discharge Protection Manual LBI-38737
Specification, Guidelines & Practices Manual LBI-39185
Antenna Systems Manual LBI-38983
MASTR V P25 Base Station Installation Manual MM-015040-001
MASTR V P25 Base Station Application/Assembly Diagrams Manual MM-015041-001
VIDA Device Manager User’s Manual MM-016371-001
VIDA Network Regional Network Manager User’s Manual MM1000018633
MM-015039-001, Rev. A
32
7 CUSTOMER SERVICE
7.1.1 Technical Support
Harris Technical Assistance Center (TAC) resources are available to help you with overall system
operation, maintenance, upgrades, and product support. TAC is your point of contact when you need
technical questions answered.
Product specialists, with detailed knowledge of product operation, maintenance, and repair, provide
technical support via a toll-free telephone number (in North America). Support is also available through
mail, fax, and e-mail.
For more information about technical assistance services, contact your sales representative, or call the
Technical Assistance Center directly at:
North America: 1-800-528-7711
International: 1-434-385-2400
Fax Number: 1-434-455-6712
E-mail: tac@tycoelectronics.com
7.1.2 Customer Resource Center
If any part of the system equipment is damaged on arrival, contact the shipper to conduct an inspection
and prepare a damage report. Save the shipping container and all packing materials until the inspection
and the damage report are completed. In addition, contact the Customer Resource Center to make
arrangements for replacement equipment. Do not return any part of the shipment until you receive
detailed instructions from a Harris representative.
Contact the Customer Resource Center at:
US & Canada:
Toll Free Domestic Number: 1-800-368-3277 (toll free)
Fax Number: 1-800-833-7592 (toll free)
E-mail: customerfocus@tycoelectronics.com
International:
Phone Number: 1-434-455-6403
Fax Number: 1-434-455-6676
E-mail: InternationalCustomerFocus@tycoelectronics.com
MM-015039-001, Rev. A
33
WARRANTY
A. Harris Corporation, a Delaware Corporation, through its RF Communications Division (hereinafter "Seller") warrants to the
original purchaser for use (hereinafter "Buyer") that Equipment manufactured by or for the Seller shall be free from defects
in material and workmanship, and shall conform to its published specifications. With respect to all non-Seller Equipment,
Seller gives no warranty, and only the warranty, if any, given by the manufacturer shall apply. Rechargeable batteries are
excluded from this warranty but are warranted under a separate Rechargeable Battery Warranty (ECR-7048).
B. Seller’s obligations set forth in Paragraph C below shall apply only to failures to meet the above warranties occurring
within the following periods of time from date of sale to the Buyer and are conditioned on Buyer’s giving written notice to
Seller within thirty (30) days of such occurrence:
1. for fuses and non-rechargeable batteries, operable on arrival only.
2. for parts and accessories (except as noted in B.1) sold by Seller’s Service Parts Operation, ninety (90) days.
3. for P7200, P7100IP, P5400, P5300, P5200, P5100, P3300, PANTHER™ 405P and 605P, M7300, M7200 (including
V-TAC), M7100 IP, M5300 and M3300 radios, two (2) years, effective 10/01/2007.
4. for all other equipment of Seller’s manufacture, one (1) year.
C. If any Equipment fails to meet the foregoing warranties, Seller shall correct the failure at its option (i) by repairing any
defective or damaged part or parts thereof, (ii) by making available at Seller’s factory any necessary repaired or
replacement parts, or (iii) by replacing the failed Equipment with equivalent new or refurbished Equipment. Any repaired
or replacement part furnished hereunder shall be warranted for the remainder of the warranty period of the Equipment in
which it is installed. Where such failure cannot be corrected by Seller’s reasonable efforts, the parties will negotiate an
equitable adjustment in price. Labor to perform warranty service will be provided at no charge during the warranty period
only for the Equipment covered under Paragraph B.3 and B.4. To be eligible for no-charge labor, service must be
performed at Seller’s factory, by an Authorized Service Center (ASC) or other Servicer approved for these purposes either
at its place of business during normal business hours, for mobile or personal equipment, or at the Buyer’s location, for
fixed location equipment. Service on fixed location equipment more than thirty (30) miles from the Service Center or other
approved Servicer’s place of business will include a charge for transportation.
D. Seller’s obligations under Paragraph C shall not apply to any Equipment, or part thereof, which (i) has been modified or
otherwise altered other than pursuant to Seller’s written instructions or written approval or, (ii) is normally consumed in
operation or, (iii) has a normal life inherently shorter than the warranty periods specified in Paragraph B, or (iv) is not
properly stored, installed, used, maintained or repaired, or, (v) has been subjected to any other kind of misuse or
detrimental exposure, or has been involved in an accident.
E. The preceding paragraphs set forth the exclusive remedies for claims based upon defects in or nonconformity of the
Equipment, whether the claim is in contract, warranty, tort (including negligence), strict liability or otherwise, and however
instituted. Upon the expiration of the warranty period, all such liability shall terminate. The foregoing warranties are
exclusive and in lieu of all other warranties, whether oral, written, expressed, implied or statutory. NO IMPLIED OR
STATUTORY WARRANTIES OF MERCHANTABILITY OR FITNESS FOR PARTICULAR PURPOSE SHALL APPLY. IN
NO EVENT SHALL THE SELLER BE LIABLE FOR ANY INCIDENTAL, CONSEQUENTIAL, SPECIAL, INDIRECT OR
EXEMPLARY DAMAGES.
This warranty applies only within the United States.
Harris Corporation Harris Corporation
RF Communications Division RF Communications Division
1011 Pawtucket Blvd. 221 Jefferson Ridge Parkway
Lowell, MA 01853 Lynchburg, VA 24501
1-800-528-7711
Ref: ECR-7047G
RF Communications Division | 221 Jefferson Ridge Pkwy. | Lynchburg, VA USA 24501
Tel: 1-800-528-7711 (Outside USA, 1-434-385-2400) www.rfcomm.harris.com