R A C K M O U N T R E P E A T E R R MN E X U S F T I N S T A L L A T I O N A N D S E R V I C E M A N U A L R A C K M O U N T R A D I O 044-05207 Rev A April 2008 2008 Powerwave Technologies Incorporated. All rights reserved. Powerwave Technologies and the Powerwave logo are registered trademarks. Powerwave Technologies Inc. reserves the right to make changes to documentation and equipment, including but not limited to com-
ponent substitution and circuitry changes. Changes that impact this document may be subsequently incorporated in a later revision of this document. This Powerwave product is designed to operate within the Normal Operating (typical operating) ranges or conditions specified in this document. Operation of this equipment beyond the specified ranges in this document may cause (1) spurious emissions that violate regulatory requirements; (2) the equipment to be automatically removed from service when maximum thresholds are exceeded; or
(3) the equipment to not perform in accordance with its specifications. It is the Operator's responsibility to ensure this equipment is properly installed and operated within Powerwave operating specifications to obtain proper performance from the equipment and to comply with regulatory requirements. The rated output power of a Nexus FT is for multiple carriers. As long as the composite power does not exceed the rated power
(20W for North America), derating is not required for multiple carriers. For situations where regulatory requirements require reduced interference to adjacent band users, the rating would have to be reduced by 3 dB. This power reduction is to be by means of input power or gain reduction and not by an attenuator at the output of the device. Input power is rated at 115/230VAC, 50/60Hz, and should be protected based on the power and fuse specifications in Chapter 5 of this manual. Power strips should, at a minimum, conform to this requirement to prevent equipment damage and possible overload. Federal Communications Commission (FCC) This device complies with the technical standards governing mobile radio devices in accordance with FCC Rules. This device is intended to facilitate the reception and transmission of mobile radio devices in the cellular, PCS or other mobile services, and its operation by end users or others requires carrier consent under FCC rules. This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to CRF47 part 15 of the FCC rules. This equipment is also certified to CRF47 part 22 (cellular), part 24 (PCS) and part 90 (iDEN800 and iDEN900) of the FCC Rules depending on the band of operation. Changes or modifications not expressly approved by Powerwave Technologies, Inc. for compliance could void the users authority to operate this equipment. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. European Requirements The Powerwave Nexus FT apparatus introduced in EU markets are certified to ESTI EN 300 609-4 (GSM900 and DCS1800) and ESTI EN 301 908-11 (WCDMA). Powerwave Technlogies Inc., 1801 East St. Andrew Place, CA 92705 Santa Ana, USA. Phone +1 714 466 1000 Fax +1 714 466 5800 Internet www.powerwave.com Warnings, Cautions, and Notes Warnings, Cautions, and Notes are found throughout this manual where applicable. The associated icons in warnings and cautions are used to quickly identify a potential condition that could result in the consequences described below if precautions are not taken. Notes clarify and provide additional information to assist the user. WARNING: The warning symbol means danger. You are in a situation that could cause bodily injury or death. Before you work on any equipment, be aware of the hazards involved with electrical and RF circuitry and be familiar with standard practices for preventing accidents. CAUTION: The caution symbol means the potential exists for equipment damage or loss of data. NOTE: Notes contain helpful suggestions or references to material not covered in the docu-
ment. 044-05207 Rev A i Revision Record Nexus FT RMR Revision Record Revision Letter Date of Change Reason for Change Rev A April 2008 Initial release ii 044-05207 Rev A Preface Safety Any personnel involved in installation, operation, or service of units included in a Powerwave Distributed Antenna System (DAS) must understand and follow the points below. Powerwave Nexus FT Rack Mount Radios (RMR) are designed to receive and amplify signals from one or more base stations and retransmit the signals to one or more mobile stations. They also act the other way round, that is to receive signals from one or more mobile stations, then amplify and retransmit the signals to the base stations. Powerwave Nexus FT RMR systems must be used exclusively for this purpose and nothing else. Units supplied with power from the mains must be connected to grounded outlets and in conformity with the local prescriptions. Power supply units supplied from the mains contain dangerous voltage that can cause electric shock. Disconnect the mains prior to any work in such a unit. Local regulations are to be followed when servicing such units. Only authorized service personnel are allowed to service units while the mains are connected. All RF transmitting units, including Nexus FT RMRs, will generate radio signals and thereby give rise to electromagnetic fields that may be hazardous to the health of any person who is extensively exposed close to an antenna. Human Exposure to RF Radiation Safe distances must be kept when working around antennas. The following paragraphs describe the cautions to be aware of during the installation and maintenance of antenna systems and how to calculate safety distances needed for RF radiation at different antenna power and frequencies. Antennas To be able to receive and transmit signals, a RMR is connected to a donor antenna directed towards the base station and a service antenna directed towards the coverage area. A fiber optic cable from the base station might, however, be substituted for the donor antenna. Installation and Maintenance of Antenna Systems Installation and maintenance of all antenna systems must be performed with respect to the radiation exposure limits for public areas. The antenna radiation level is affected by RMR output power, antenna gain, and transmission devices such as cables, connectors, splitters and feeders. Also, the system minimum coupling loss, typically between 25dB and 35dB, is determined by a standard with the purpose to protect base stations from noise and other performance dropping effects. Radiation Exposure The World Health Organization (WHO) and International Commission on Non-Ionising Radiation Protection
(ICNIRP) have determined recommendations for radiation exposure. ICNIRP recommends not to exceed the following radiation power for public exposure:
Frequency Radiation power 800/900 MHz 1800/1900 MHz 2100 MHz For antennas larger than 20cm the maximum radiation power can be calculated by using the following formula:
4.5W/m 9.0W/m 10.0W/m S= P/(4r2) S = Radiation power in W/m P = Output power in W r = Distance between antenna and human in meters 044-05207 Rev A iii Electrostatic Discharge (ESD) Electrostatic Discharge (ESD) Nexus FT RMR ESD can severly damage essential parts of the equipment if not handled carefully. Parts on printed circuit board assemblies (PCBA) as well as other parts in the equipment are sensitive to ESD. Never touch the PCBA or uninsulated conductor surfaces unless absolutely necessary. If you must handle the PCBAs or uninsulated conductor surfaces, use ESD protective equipment or first touch the chassis with your hand. Never let your clothes touch PCBAs or uninsulated conductor surfaces and always store PCBAs in ESD-safe bags. iv 044-05207 Rev A Chapter 1 Product Description Introduction This manual contains information and procedures for installation, operation, and maintenance of the Rack Mount Radio module as part of the Nexus FT Rack Mount Repeater. In this manual, the Nexus FT Rack Mount Radio is referred to as the RMR. The manual is organized into chapters as follows:
Chapter 1- Product Description Chapter 2- Controls and Indicators Chapter 3- Installation Chapter 4- Maintenance Chapter 5- Specifications Scope of Manual This manual is intended for use by service technicians familiar with similar types of equipment. It contains service information required for the equipment described and is current as of the printing date. Changes which occur after the printing date may be incorporated by a complete manual revision or alternatively as additions. Overview The RMR is a repeater designed to be part of a Distributed Antenna System (DAS). The components are mounted on a 19 rack and are intended for use in an in-door, temperature controlled environment. As part of a DAS, the RMR extends coverage into uncovered areas in wireless mobile systems such as base station fringe areas, tunnels, convention centers, airports, and buildings. It receives, amplifies, and transmits signals to/from a Base Transceiver Station (BTS) and to/from Mobile Stations (MS) with both directions being served simultaneously. The RMR unit is a dual wide band, bi-directional, RF amplifier with two separate donor ports and a common
(duplexed) service port per band. It connects to an Optical to RF Distribution Unit (ORD) where RF signals are combined or split and converted to an optical signal in the Uplink direction. In the Downlink direction, optical signals are converted to RF and split to RF outputs. Two separate full duplex fibers handle signal transport between the BTS Master Unit and the ORD. The DL signal and the UL signal combine onto one optical fiber through a Wavelength Division Multiplexer (WDM). Wide band 4-way combiners handle RF splitting and combining. The UL ouput signal is connected to the ORD via RF coax cable, converted to light, and sent via fiber toward the BTS. A Wireless Portal module distributes the DL/UL signals to/from the DAS. The RMR is microprocessor controlled with alarm and operational status LEDs visible on the front. Cooling is provided through forced air fans. Operational parameters, such as gain and power levels are set using a PC running Powerwave OM-Online software which communicates with the RMRs either locally or remotely via modem. Remote operation can be accomplished via PSTN or a GSM net. The Operation and Maintenance System (OMS) provides for Network Operations Center (NOC) configuration and alarm monitoring. 044-05207 Rev A 1-1 Rack Mount Radio module (RMR) Nexus FT RMR Cabinet Design The RMR modules are intended to be mounted in a 19 inch cabinet at least 600mm deep, similar to the one shown Figure 1-1. I Typical RMR position Rack Mount Radio module (RMR) Figure 1-1 Powerwave RMR rack- fully equipped RMRs can handle multiple carriers over a wide band. The rack can be equipped with up to four RMRs. Figure 1-2 RMR 1-2 044-05207 Rev A Chapter 2 Controls, Indicators and Connectors Introduction This chapter contains descriptions of the controls, indicators and connectors for the RMR. Indicators Red Amber Figure 2-1 External Indicators The LEDs, shown in Figure 2-1, provide easy identification of a fault in the system. The amber operation LED lights up approximately 15 seconds after the main power is switched on. When the LED is steady, the RMR is ready for operation. The red alarm LED indicates a system error alarm when flashing and a critical alarm when steady. 044-05307 Rev A 2-1 Nexus FT RMR This page intentionally left blank 2-2 044-05307 Rev A Chapter 3 Installation Introduction This chapter contains unpacking, inspection, and installation instructions for installing and powering up the RMR. Site Survey Powerwave recommends that a site survey be performed prior to equipment ordering or installation. Performing a detailed site survey reduces or eliminates installation and turn-up delays. Pay particular attention to power plant capacity, cooling needs, floor space, and RF/DC cabling/breaker requirements. Cabinet dimensions and weights are listed in Chapter 5. Unpacking and Inspection This equipment has been operated, tested, and calibrated at the factory. Carefully open container to remove equipment. Retain all packing material that can be reassembled in the event unit must be returned to the factory. Perform the following steps:
Visually inspect equipment for damage that may have occurred during shipment. If possible, in the Check for evidence of water damage, bent or warped chassis, loose screws or nuts, or extraneous presence of the delivery person. packing material in connectors. If equipment is damaged, file a claim with the carrier once the extent of any damage is assessed. If equipment must be returned to factory, please contact factory for a Return Material Authorization (RMA), see Chapter 4. RMR Rack Location The RMR is designed for use in an indoor, temperature controlled environment mounted on a 19 inch rack as supplied by the customer. A preferable site for the RMR is a location free of obstructions, easily accessible and allows for proper air-flow and ventilation. Connections This section describes general examples of how to connect the input and output ports on the RMR. Main Power and Grounding Local regulations need to be followed for the main power connection. RMRs are approved in accordance with EN and UL/cUL regulations. This is, however, only valid if a classified power cord is used. For the Nexus FTto meet these regulations you must select one of the following classified and approved cord types:
EN H 05 W5 - F HMR UL AWM Style 2587 CSA AWM 1 A/B 11 A/B WARNING: For RMRs supplied from the main power source, the main outlet must be grounded. 044-05207 Rev A 3-1 Connections Nexus FT RMR RF Connections RF cable connections should be verified both internally and externally before powering up the equipment. This section illustrates the general internal connections of the RMR. Verify these connections with the as-built drawings and documents for your specific system configuration. Table 3-1 and Figure 3-2 show the steps to connect the RMR to the Optical and RF Distribution(ORD) module. Table 3-1 RMR Cable Connection Procedure Step Action 1 2 3 4 Connect an RF cable between RMR Donor 1 IN terminal and A1 terminal on ORD RFM 1. Then connect an RF cable between A terminal of RFM 1 to bottom terminal of FMR 1. Connect an RF cable between RMR Donor 2 IN terminal and B1 terminal on ORD RFM 1. Then connect an RF cable between B terminal of ORD RFM 1 to top terminal of ORD FMR 2. Connect an RF cable between RMR Donor 1 OUT terminal and A1 terminal on ORD RFM 2. Then connect an RF cable between A terminal of ORD RFM 2 to top terminal of ORD FMR 1. Connect an RF cable between RMR Donor 2OUT terminal and B1 terminal on ORD RFM 2. Then connect an RF cable between B terminal of RFM 2 to bottom terminal of FMR 2. 1 2 1 2 Figure 3-1 RMR to ORD cable connections 3-2 044-05207 Rev A Nexus FT RMR Commissioning Commissioning Before proceeding, carefully read the Safety section and check all connections made during the installation. A RMR can be configured locally with OM-Online by connecting a standard serial cable from the COM port on the PC to the P31 PC port (RS-232) located on the front of the RMR Details on using OM-Online are described in the OM-Online User ManualConnecting a PC for Local Access Initial Startup To complete the inital start-up of the RMR, follow the steps listed in Table 3-3. Table 3-2 Initial Statup Procedure Step Action 1 2 Turn main power on Check the LEDs on the RMR. Refer to Figure 2-1 in Chapter 2 for correct power up indications. NOTE When optimizing RMRs, offset the UL gain 20dB less than the DL gain as a starting point. Always monitor the UL pass bands for noise levels and/or IMDs when optimizing and commissioning. 044-05207 Rev A 3-3 Commissioning Nexus FT RMR This page intentionally left blank 3-4 044-05207 Rev A Chapter 4 Maintenance Introduction This chapter contains periodic maintenance and performance test procedures for the RMR. Periodic Maintenance Periodic maintenance requirements are listed in Table 4-1, as well as the intervals at which the tasks should be performed. Table 4-1 Recommended Periodic Maintenance Task Interval Action Inspection of cables and connectors 12 months Inspect power, RF and Fiber cables for signs of damage or wear
(frayed insulation, cracks, punctures, etc.) Check connections to be sure they are tight Optional Perform cable sweeps Clean equipment Clean as required depending on operating environment Troubleshooting The sections that follow contain a list of problems that could occur and a few suggested actions that might correct each problem. If the suggested corrective action does not eliminate the problem, please contact your Powerwave field representative or help line for further instruction. Clearing Alarm Faults Table 4-2 lists the alarms that can be generated in the RMR. Critical, Error and Warning alarms are sent automatically from a RMR to OM-Online, stored and then viewed in the Alarm window. Table 4-2 Alarm Troubleshooting ID 1 Alarm Text Alarm Unit Alarm Description Power PSM Critical Ceasing Ceasing PSM does not work properly. A sum signal from the PSM indicates that at least one voltage output has dropped. If no mains breakdown relay is used, then the alarm will also be sent at mains breakdown PSM. Ceasing is sent if the PSM works at start-up, and there is a corresponding critical PSM alarm logged in the Events log. The RMR will restart when the power is back and this alarm will be sent PSU2 in the cover works properly again. Ceasing is sent if the PSU2 works at start-up, and there is a corresponding critical PSU2 alarm logged in the Events Log. The RMR will restart when the power is back and this alarm will be sent Ceasing The cause of the alarm has ceased 044-05207 Rev A 4-1 Troubleshooting Nexus FT RMR ID 2 3 4 5 6 7 8 9 10 11 Table 4-2 Alarm Troubleshooting (Continued) Alarm Text Alarm Unit Alarm Description RMR restart CU None Power on start, or user ordered reboot. Logged to indicate a normal power up, or a restart ordered by the operator Warning Error Mains breakdown External Critical Software error restart, 1st 7th time. Restart 1st to 7th time during a 14 day period. The counter is reset every 14th day, counted from power up Software error restart 8th 10th time. Restart 8th to 10th time during the 14 day period. At the 11th time, the SW bank will be blocked and not used anymore until a user ordered reset is performed, or power is switched off/on The mains power is gone. Used with an external relay indicating mains breakdown. The external relay should be connected to External Alarm 1 and the RMR configured to indicate this alarm. If no relay is used, a mains breakdown will be reported as a PSM fault Ceasing The mains power is back. Sent if there is a corresponding critical mains breakdown alarm logged in the Events Log. The RMR will restart when the power is back Alarm reset CU Local bus error Main bkd w backup WBA #, MCPA#
External None Error Error Alarm reset by the user. All alarms are reset. The cause of the alarm will be re-evaluated and reported, if still active Error when communicating on the bus. The CU has no contact with the WBA, or MCPA PCBA, which is taken out of service Used to indicate that the mains is no longer available. RMR is powered by external battery backup unit. Suggested remedy:
Check the mains power Err in AD-
converter New unit detected Inst. unit lost EEPROM error CU Log memory fault Ceasing The cause of the alarm has ceased Warning The analog-to-digital converter on the CU PCBA does not give reliable values None Error Error Error Compared to the last power on, the CU has recognized at least one additional hardware unit Compared to the last power on, the CU lacks at least one hardware unit EEP read or write fail. Data cannot be written or read from the EEPROM on the CU PCBA. User parameters are stored in the EEPROM Log memory fault. Indicates that the log memory on the CU PCBA is faulty. The RMR will not work. Not available in all CU software versions 12 High temp CU Warning The CU PCBA temperature is higher than 90C 13 14 REFO error Ext REFO error Ceasing The CU PCBA temperature has fallen below 90C Error Significant REFO drift or error detected by CU Warning Suggested remedy: Check the reference source and the cables 4-2 044-05207 Rev A Nexus FT RMR Troubleshooting ID 15 Table 4-2 Alarm Troubleshooting (Continued) Alarm Text Alarm Unit Alarm Description CU battery fault CU Warning CU RAM battery fault. The battery for the RAM on the CU PCBA has a voltage outside the normal 2.7 to 3.5 Volt. An alarm may be initiated at start-up if the RMR has been stored out of power for a long time. Suggested remedy: Ensure jumper P3 on the CU PCBA is mounted to charge the battery Ceasing The cause of the alarm has ceased 16 SW load error CU Error 17 Log cleared CU None 18 RTC restarted CU None Software load error. An error has occurred during a software load process. The flash memory does not contain a proper software. Suggested remedy: Check the CU software using the OM-Online SW Manager. Do NOT restart the RMR Log memory has been cleared. The check sum in the Events Log memory is faulty. The log is cleared. Can be caused of a bad RAM battery backup or low voltage to the RAM The time is changed by the operator (logged to keep track of changes made to the RTC) Warning Time reset to 1994-01-01. The RTC was unable to keep track of the time and did a reset. Suggested remedy: Ensure jumper P3 on the CU PCBA is mounted to charge the battery 19 RTC error Error RTC does not operate. The CU has detected an error in the RTC operation which makes the time unreliable. Suggested remedy:
Replace the CU PCBA 21 22 23 24 34 40 External alarm 1 External alarm 2 External alarm 3 External alarm 4 External Config External alarm input EA1 active more than 1 second Ceasing External alarm input EA1 no longer active External Config External alarm input EA2 active more than 1 second Ceasing External alarm input EA2 no longer active External Config External alarm input EA3 active more than 1 second Ceasing External alarm input EA3 no longer active External Config External alarm input EA4 active more than 1 second Ceasing External alarm input EA4 no longer active Warning No connection at alarm call. The RMR has tried to call as many times as stated in the alarm call settings. No connection was established. This alarm does not generate a new attempt to report alarm by alarm call. Login failed Battery fault RCU None Error Invalid RMR password The backup battery on the RCU does not work properly. Suggested remedy: Check cables or replace battery Ceasing The cause of the alarm has ceased 044-05207 Rev A 4-3 Troubleshooting Nexus FT RMR ID 42 48 70 71 72 80 Table 4-2 Alarm Troubleshooting (Continued) Alarm Text Alarm Unit Alarm Description Antenna isolation Warning WBA #, Channel #, UL/DL Low antenna isolation. The antenna isolation is lower than the gain set. Gain is reduced by 10dB 13dB below the oscillation point. Suggested remedy: Decrease gain or increase antenna isolation Error Low antenna isolation at lowest gain. The gain has been reduced as much as possible but the oscillation still remains. The amplifier is turned off. Suggested remedy: Decrease gain or increase antenna isolation Ceasing Normal operation again, that is no oscillation can be detected 13dB above the gain set Battery backup fault External Error If a battery backup unit alarm is connected to external alarm 2, then the operator can configure the RMR to display this alarm when the battery backup unit indicates alarm Bad table alarm Table not found Table database error Antenna SWR alarm CU CU CU Donor antenna service antenna Ceasing The cause of the alarm has ceased Error Requested table contains incorrect information (SW error) Error Requested table not found in the database (SW or calibration error) Error Table database not found (calibration error) Error Too low antenna return loss, causesd by cables, connectors, or antenna problems. Suggested remedy: Check antenna and cables Ceasing The cause of the alarm has ceased 245 Not In Allowed Area CU None RMR is moved from the operating area and the RF HW is switched on or off Remarks:
The Main power breakdown alarm requires an optional relay described in the Main Power Breakdown Relay section of Chapter 3. 4-4 044-05207 Rev A Nexus FT RMR Field Replaceable Units Field Replaceable Units The fan assembly is the only field replaceable component. If any other components fail please contact Powerwave for service. Fan replacement NetWay Manager (NWM) NWM is a Powerwave software package for network management. NWM can be used to access repeaters for alarm reception, radio parameter configuration, software downloading and the scheduling of activities. Return For Service Procedures When returning products to Powerwave, the following procedures will ensure optimum response. Obtaining an RMA A Return Material Authorization (RMA) number must be obtained prior to returning equipment to the factory for service. Pease contact our Repair Department at +1-714-466-1000 to obtain this number, or FAX your request to +1-714-466-5800. Failure to obtain this RMA number may result in delays in receiving repair service. Repackaging for Shipment To ensure safe shipment of the unit, it is recommended that the original package designed for shipping the unit be reused. If it is not available, contact Powerwaves Customer Service Department at 1-800-797-9283,
+1-714-466-100 or by e-mail at support@pwav.com for packing material. 044-05207 Rev A 4-5 Return For Service Procedures Nexus FT RMR This page intentionally left blank 4-6 044-05207 Rev A Chapter 5 Specifications Introduction This chapter provides specifications for the RMR. Table 5-1: RMR Specifications Electrical Frequency band UL Frequency band DL Max absolute delay Gain adjustment range (in 1 dB steps) Gain Uplink Downlink Variation
*These are typical values and may vary due to cable length. Instantaneous bandwidth Uplink AGC limit Downlink AGC limit Return Loss 824 to 849 MHz (Cellular) 806 to 824 MHz (800 iDEN) 896 to 902 MHz (900 iDEN) 1850 to 1910 MHz (PCS) 869 to 894 MHz (Cellular) 851 to 869 MHz (800 iDEN) 935 to 941 MHz (900 iDEN) 1930 to 1990 MHz (PCS)
<300 ns 30 dB 35 to 60 dB typical - Excluding fiber link 45 to 70 dB typical - Excluding fiber link 1.5 dB versus temperature including fiber link 2.0 dB versus DL frequency including fiber link 0.5 dB versus DL output power including fiber link 0.5 dB versus input voltage including fiber link 2.0 dB versus UL frequency including fiber link 25 MHz (Cellular) 18 MHz (800 iDEN) 6 MHz (900 iDEN) 60 MHz (PCS) 0 dBm at donor output port 43 dBm at antenna port 11 dB (Service Port), 14 dB (Donor Port) Downlink, Spurious and Emissions level
-13 dBm/1 MHz (FCC) Downlink power
+43 dBm RMS (20 Watts) (for FCC) Noise figure excluding fiber optic link Fiber-Optic Link Budget Receiver input port return loss Power supply voltage Maximum Current Draw (Single Band) 4 dB 10 dBo 14 dB 115/230 VAC 6.5 A @ 115 VAC 3 A @ 230 VAC 044-05307 Rev A 5-1 Introduction Nexus FT RMR Table 5-1: RMR Specifications (Continued) Maximum Current Draw (Dual Band) Recommended Fuse size 6 A @ 115 VAC 3 A @ 230 VAC 10 A for AC voltage 20 A for AC voltage Power consumption 420 W typical, 600 W max Impedance Input Output Mechanical 50 Dimensions (W x H x D in inches) 403 x 265.9 x 551 mm (15.9 x 10.5 x 21.7in) Weight Service Antenna port connector Donor port connector Environmental
<45 kg (100 lbs) Female N-Type SMA Operating Temperature Range
-25 C to +55 C (-13F to +131F) Altitude Casing class
-142 m to 4000 m (-466 ft. to 13100 ft. NEMA4/IP65 5-2 044-05307 Rev A Powerwave Installation and Service Manual Worldwide Corporate Headquarters 1801 East St. Andrew Place Santa Ana, CA 92705 USA Tel: 714-466-1000 Fax: 714-466-5800 www.powerwave.com Main European Office Knarramasgatan 7 8tr 164 40 Kista, Sweden Sweden Tel: +46 8 540 822 00 Fax: +46 8 540 824 91 Main Asia-Pacific Office 23 F Tai Yau Building 181 Johnston Road Wanchai, Hong Kong Tel: +852 2512 6123 Fax: +852 2575 4860 Copyright 2008, Powerwave Technologies, Inc. All Rights reserved. Powerwave, Powerwave Technologies, The Power in Wireless and the Powerwave logo are registered trademarks of Powerwave Technologies, Inc.