Powerwave Technologies 5JS0065 1900 MHz Single Channel RF Amplifier User Manual Cover Page

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1930-1990 MHz
Installation & Service
Manual
Model SPA9323-30C
Single-Channel Cellular Amplifier
© Copyright Powerwave Technologies, Inc., October 2004. All rights reserved
044-05178 Rev.A
October 2004
SPA9323-30C Installation & Service Manual
© 2004 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 the documentation and
equipment, including but not limited to component substitution and circuitry changes. Changes
that impact this manual may subsequently be incorporated in a later revision of this manual.
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 regulating body
rules; (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 regulating body rules.
October 2004
Powerwave Technologies, Inc.
1801 East St. Andrew Place
Santa Ana, CA 92705
Tel: (714) 466-1000
(888) 797-9283
Fax: (714) 466-5800
Web Site: www.powerwave.com
© Copyright Powerwave Technologies, Inc., October 2004. All rights reserved
044-05178 Rev. A
ii
October 2004
SPA9323-30C Installation & Service Manual
Table Of Contents
Par.
No.
1-1
1-2
1-3
1-4
Section 1
General Description
Page
No.
Introduction ...................................................................................................................... 1-1
General Description ......................................................................................................... 1-1
Functional and Physical Specifications............................................................................1-1
Equipment Changes ........................................................................................................ 1-1
Section 2
Installation
2-1
2-2
2-3
2-4
2-5
2-5.1
2-5.2
2-5.3
Introduction ...................................................................................................................... 2-1
Electrical Service Recommendations ..............................................................................2-1
Unpacking and Inspection................................................................................................ 2-1
Installation Instructions .................................................................................................... 2-2
Amplifier Module Connectors........................................................................................... 2-2
Data I/O Connector .......................................................................................................... 2-3
Amplifier RF Connectors..................................................................................................2-4
DC Power Connector .......................................................................................................2-4
Section 3
Operating Instructions
3-1
3-2
3-3
Introduction ...................................................................................................................... 3-1
Location and Function of Amplifier Indicators.................................................................. 3-1
Initial Start-Up and Operating Procedures....................................................................... 3-1
Section 4
Principles of Operation
4-1
4-2
4-3
4-4
4-4.1
4-4.2
4-4.3
4-4.4
Introduction ...................................................................................................................... 4-1
RF Input Signal ................................................................................................................ 4-1
RF Output Load................................................................................................................ 4-1
SPA9323-30C Amplifier ................................................................................................... 4-1
Driver Amplifier................................................................................................................. 4-2
Main Amplifier .................................................................................................................. 4-2
Power Distribution............................................................................................................ 4-2
Multifunction Board .......................................................................................................... 4-2
Section 5
Maintenance
5-1
Periodic Maintenance ...................................................................................................... 5-1
© Copyright Powerwave Technologies, Inc., October 2004. All rights reserved
044-05178 Rev. A
iii
October 2004
SPA9323-30C Installation & Service Manual
Section 6
Troubleshooting
6-1
6-2
6-3
6-3.1
6-3.2
Introduction ...................................................................................................................... 6-1
Trouble shooting .............................................................................................................. 6-1
Return for Service Procedures ........................................................................................ 6-1
Obtaining an RMA............................................................................................................ 6-1
Repackaging for Shipment............................................................................................... 6-1
List Of Illustrations
Figure
No.
1-1
2-1
2-2
2-3
3-1
4-1
Page
No.
SPA9323-30C Amplifier ................................................................................................... 1-3
SPA9323-30C Front Panel View ..................................................................................... 2-2
Data I/O Connector .......................................................................................................... 2-3
DC Power Connector ....................................................................................................... 2-4
Front Panel Indicators...................................................................................................... 3-1
SPA9323-30C Amplifier Block Diagram ..........................................................................4-1
List Of Tables
Table
No.
1-1
2-1
2-2
2-3
6-1
Page
No.
SPA9323-30C Single-Channel Cellular Amplifier Functional Specifications................... 1-2
Data I/O Connector Pin Definition.................................................................................... 2-3
Amplifier RF Connector Definition ................................................................................... 2-4
DC Power Connector Definition ......................................................................................2-4
Troubleshooting ............................................................................................................... 6-1
© Copyright Powerwave Technologies, Inc., October 2004. All rights reserved
044-05178 Rev. A
iv
October 2004
SPA9323-30C Installation & Service Manual
Section 1 General Description
1-1 Introduction
This manual contains information and procedures for installation, operation, and maintenance of
Powerwave’s SPA9323-30C (Nortel Model No. NTQA50GA) single-channel cellular amplifier.
The manual is organized into six sections as follows:
Section 1. General Description
Section 2. Installation
Section 3. Operating Instructions
Section 4. Principles of Operation
Section 5. Maintenance
Section 6. Troubleshooting
1-2 General Description
The SPA9323-30C (see figure 1-1) is a single-channel power amplifier that operates in the 60
MHz frequency band from 1930 MHz to 1990 MHz. It is designed for use in an amplifier system
that is modular in design, and is ideally suited for use in GSM/EDGE base stations. The amplifier
is capable of transmitting at 30 watts of power in either GMSK or EDGE modulation. All
solid-state, the amplifier is designed to provide trouble-free operation with minimum maintenance.
The system's modular construction and unique and highly effective operational status and fault
monitoring circuitry help minimize downtime. The turn-on and turn-off sequences of voltages are
fully automatic, as is overload protection.
Each amplifier module has an I/O connector that allows the host system to monitor the amplifier
module performance. Primary power for the amplifier is –48 Vdc. The amplifier has an integrated
heat sink for cooling.
1-3 Functional And Physical Specifications
Functional and physical specifications for the amplifier are listed in table 1-1.
1-4 Equipment Changes
Powerwave Technologies, Inc. reserves the right to make minor changes to the equipment, including but not necessarily limited to component substitution and circuitry changes. Changes that
impact this manual may subsequently be incorporated in a later revision of this manual.
© Copyright Powerwave Technologies, Inc., October 2004. All rights reserved
All specifications are subject to change without notice. Contact the factory for complete performance data.
1-1
October 2004
044-05178 Rev. A
SPA9323-30C Installation & Service Manual
Table 1-1 SPA9323-30C Single-Channel Cellular Amplifier Functional Specifications
Frequency Range
Nominal Input Power
Total Output Power
RF Gain at 882 MHz
Gain Variation Over All Conditions:
Output Protection:
Input Port Return Loss:
Out of Band Spurious:
Spectral Mask
Duty Cycle:
DC Input Power:
Heat Dissipation
Operating Temperature:
Storage Temperature:
Operating Humidity:
Storage Humidity:
RF Input / Output Connector
DC Power Connector
Data I/O Connector
Dimensions:
1930-1990 MHz
-3.2 dBm
30 W (44.77 dBm) typical / 33 W (45.19 dBm) maximum
48 +/- 1.0 dB
±2.0 dB
Mismatch Protected
-14 dB (Min)
-40 dBm (max)
Frequency Removed From Carrier GSM
EDGE
200 kHz
-31 dBc -31 dBc
250 kHz
-34 dBc -34 dBc
400 kHz
-61 dBc -57 dBc
600 kHz
-71 dBc -71 dBc
1200 kHz
-74 dBc -74 dBc
1800 kHz
-76 dBc -76 dBc
6000 kHz
-81 dBc -81 dBc
Continuous
-48 VDC; 3.1 amps typical; 4.2 amps max.
-36 to –60 VDC, 150 watts typical; 200 watts max.
375 BTUs typical
0 ºC. to +60 ºC.
-40 ºC. to +75 ºC.
5 % - 95 % Relative Humidity (Noncondensing)
5 % - 95 % Relative Humidity (Noncondensing)
SMA Female (Input) / Type N Female (Output)
3-Pin D-Subminiature (20 A Contacts)
20-Pin SCSI
2.55” High, 9.48” Wide, 11.85” Deep
© Copyright Powerwave Technologies, Inc., October 2004. All rights reserved
All specifications are subject to change without notice. Contact the factory for complete performance data.
1-2
October 2004
044-05178 Rev. A
SPA9323-30C Installation & Service Manual
All dimensions are in inches
and are for reference only
Figure 1-1. SPA9323-30C Amplifier
© Copyright Powerwave Technologies, Inc., October 2004. All rights reserved
All specifications are subject to change without notice. Contact the factory for complete performance data.
1-3
October 2004
044-05178 Rev. A
SPA9323-30C Installation & Service Manual
Section 2 Installation
2-1 Introduction
This section contains installation recommendations, unpacking, inspection, and installation instructions for the SPA9323-30C single channel cellular amplifier. Carefully read all material in this
section prior to equipment unpacking or installation. Also read and review the operating procedures in Section 3 prior to installing the equipment. It is important that the licensee perform these
tasks correctly and in good faith. If applicable, carefully read the Federal Communications Commission (FCC) rules to determine how they apply to your installation.
2-2 Electrical Service Recommendations
Powerwave Technologies recommends that proper AC line conditioning and surge suppression
be provided on the primary AC input to the -48 Vdc power source. All electrical service should be
installed in accordance with the National Electrical Code, any applicable state or local codes, and
good engineering practice. Special consideration should be given to lightning protection of all
systems in view of the vulnerability of most transmitter sites to lightning. Lightning arrestors are
recommended in the service entrance. Straight, short ground runs are recommended. The electrical service must be well grounded.
The amplifier has an internal fuse, so a failure in one does not shut off the whole installation.
2-3 Unpacking And Inspection
This equipment has been operated, tested and calibrated at the factory. Only in the event of severe shocks or other mistreatment should any substantial readjustment be required. Carefully
open the container(s) and remove the amplifier module(s). Retain all packing material that can be
reassembled in the event that the unit must be returned to the factory.
CAUTION
Exercise care in handling equipment during inspection to prevent damage
caused by rough or careless handling.
Visually inspect the amplifier module for damage that may have occurred during shipment. Check
for evidence of water damage, bent or warped chassis, or loose screws or nuts. Inspect the front
panel for bent connector pins. If the equipment is damaged, a claim should be filed with the carrier once the extent of any damage is assessed. We cannot stress too strongly the importance of
IMMEDIATE careful inspection of the equipment and the subsequent IMMEDIATE filing of the
necessary claims against the carrier if necessary. If possible, inspect the equipment in the presence of the delivery person. If the equipment is damaged, the carrier is your first area of recourse. If the equipment is damaged and must be returned to the factory, write or phone for a return authorization (see section 6). Powerwave may not accept returns without a return authorization.
© Copyright Powerwave Technologies, Inc., October 2004. All rights reserved
044-05178 Rev. A
2-1
October 2004
SPA9323-30C Installation & Service Manual
Installation Instructions (Refer to figures 1-1 and 2-1)
The SPA9323-30C is intended for installation in a Restricted Access Location.
The SPA9323-30C amplifier module is designed for installation in a subrack that permits access
to the amplifier’s front panel for connection of DC power, RF, and monitor cables.
To install the amplifier proceed as follows:
1.
Install amplifier in the BTS rack and secure in place.
2.
Connect the amplifier front panel RF Out (Type-N) connector to the antenna cable.
3.
Connect the amplifier front panel RF In (Type-SMA) connector to the transceiver output(s).
4.
Connect the BTS 20-pin Data I/O cable to the amplifier. Refer to section 2-5.1.
WARNING
Turn off external DC power before connecting DC power cables. Verify that
the amplifier is terminated into a proper 50-Ohm load.
5.
Connect the DC power cable to the rack and amplifier. Refer to section 2-5.3.
6.
Check your work before applying DC voltage to the system. Make certain all connections are
tight and correct.
7.
Measure DC input voltage. DC input voltage should be -36 to –60 VDC. If the DC input voltage is above or below the limits, call and consult Powerwave before you turn on your amplifier system.
8.
Refer to section 3 for initial turn-on and checkout procedures.
2-4 Amplifier Module Connectors
The amplifier has four connectors on the front of the module. These include a SCSI connector
which provides the data I/O connections, SMA female RF input, Type N female RF output, and 3pin high current contact DC input connectors. Refer to figure 2-1. Each is fully described in the
paragraphs that follow.
Figure 2-1 SPA9323-30C Front Panel View
© Copyright Powerwave Technologies, Inc., October 2004. All rights reserved
044-05178 Rev. A
2-2
October 2004
SPA9323-30C Installation & Service Manual
2-4.1 Data I/O Connector
The amplifier has a separate remote alarm and control connector that may be used by the host
system to monitor and control the individual amplifier modules. The status, alarm, and control
connections on the amplifier connector are made through a 20-pin SCSI connector (figure 2-2)
and are listed and described in table 2-1.
Figure 2-2 Data I/O Connector (on Front Panel)
Table 2-1 Data I/O Connector Pin Definition
Pin
Function
Description
Ground
Ground
Ground
Ground
Synchro Signal +
Synchro Signal from TRX
UART TX +
Information Exchange (TRX to PA)
Manual Control
To Set PA in Test Mode
Not Connected
UART RX +
Not Connected
Not Connected
10
Not Connected
11
Ground
Ground
12
Ground
Ground
13
Synchro Signal -
Synchro Signal from TRX
14
UART TX -
Information Exchange (TRX to PA)
15
Not Connected
16
Not Connected
17
UART RX -
18
Not Connected
19
Not Connected
20
Not Connected
Information Exchange (PA to TRX)
Information Exchange (PA to TRX)
© Copyright Powerwave Technologies, Inc., October 2004. All rights reserved
044-05178 Rev. A
2-3
October 2004
SPA9323-30C Installation & Service Manual
2-4.2 Amplifier RF Connectors
The amplifier has two RF connectors. The RF Input connector is a SMA female. The input power
on this port should not exceed the level specified in table 1-1. The RF Output connector is Type
N female. They are listed and described in table 2-2.
Table 2-2 Amplifier RF Connector Definition
Function
Description
RF Input
SMA Female
RF Output
Type N Female
2-4.3 DC Power Connector
The DC power connector is a three-pin high current contact D-subminiature connector. The pin
configuration is listed in table 2-3 and shown in figure 2-3.
Table 2-3 DC Power Connector Definition
Pin
Description
-48 V
Chassis Ground
Battery Return
Figure 2-3 DC Power Connector
© Copyright Powerwave Technologies, Inc., October 2004. All rights reserved
044-05178 Rev. A
2-4
October 2004
SPA9323-30C Installation & Service Manual
Section 3 Operating Instructions
3-1 Introduction
This section contains operating instructions for the single channel cellular amplifier system.
3-2 Location And Function Of Amplifier Indicators
The front panel LED, located to the right of the 20-pin data connector, indicates the amplifier
status.
•
Green indicates the amplifier is operating properly.
•
Red indicates an alarm or off condition.
The nature of the alarm can only be determined through the software interface of the BaseTransceiver System (BTS). Please consult the BTS manual for details on monitoring amplifier
status.
Figure 3-1 Front Panel Indicators
3-3 Initial Start-Up And Operating Procedures
To perform the initial start-up, proceed as follows:
1.
Verify that all input and output cables are properly connected.
CAUTION
Before applying power, make sure that the input and output of the amplifier
are properly terminated at 50 ohms. Do not operate the amplifier without a
load attached. Refer to table 1-1 for input power requirements. Excessive
input power may damage the amplifier.
NOTE
The output coaxial cable between the amplifier and the antenna must be 50ohm coaxial cable. Use of any other cable will distort the output.
2.
Turn on supply that provides -48 Vdc to the amplifier system. Do not apply an RF signal to
the amplifier system
3.
Verify that the LED is lit and the color Green.
4.
Turn on external exciter/transceiver and apply RF input signals. Adjust the input power to
achieve the desired output power. Refer to the BTS manual for instructions on performing
this step.
© Copyright Powerwave Technologies, Inc., October 2004. All rights reserved
044-05178 Rev. A
3-1
October 2004
SPA9323-30C Installation & Service Manual
Section 4 Principles of Operation
4-1 Introduction
This section contains a functional description of the single-carrier SPA9323-30C amplifier.
4-2 RF Input Signal
The maximum input power should not exceed the levels to produce the maximum rated RF output power in table 1-1. This level is approximately –3.2 dBm, but should be set through the basetransceiver station’s software interface. See the BTS manual for detailed instructions.
4-3 RF Output Load
The load impedance should be as good as possible (1.5:1 or better) in the working band for good
power transfer to the load.
4-4 SPA9323-30C Amplifier
The amplifier, figure 4-1, has an average output power of 30 watts, and is designed to support
transmission in GMSK and EDGE modulation. With an input signal of approximately –3.2 dBm,
the amplifier operates at its rated output power. The amplifier is comprised of:
Driver Amplifier
Main Amplifier
Multifunction Board
DC/DC Converter Module
Det
Temp Sense
Driver
Main Amp
+27
DAC
5 V Reg.
MCU
RS-485 Intfc
20-pin SCSI
Multifunction
Current Sense
Input Filter/
Protection
Red/
Grn
DC/DC
-48/+27
Power Supply
PWR Conn
03-0217B-A
Figure 4-1 SPA9323-30C Amplifier Block Diagram
© Copyright Powerwave Technologies, Inc., October 2004. All rights reserved
044-05178 Rev.A
4-1
October 2004
SPA9323-30C Installation & Service Manual
4-4.1 Driver Amplifier
The driver amplifier is a two-stage amplifier that provides approximately 28 dB of gain in the 60
MHz frequency band from 1930 to 1960 MHz. The amplifier is mounted directly on a heat sink,
which is temperature monitored by a thermal sensor.
4-4.2 Main Amplifier
The main amplifier is a single-stage Class AB amplifier with approximately 13 dB gain and a
P1dB of +50 dBm. The amplifier’s output is protected from output mismatches. The amplifier is
designed to meet spectral mask requirements for GSM and EDGE signals when operated up to
+45.2 dBm. The amplifier is mounted directly on a heat sink.
4-4.3 Power Distribution
The amplifier module operates on a –48 VDC nominal power supply consuming 2.9 amps (typically) current at full power. A DC/DC converter supplies internal circuitry with +26 VDC and +5
VDC.
4-4.4 Multifunction Board
The multifunction board enables communication between the amplifier and the base-transceiver
station in which it is installed, and stores information about the amplifier. It includes gain control
and two gain stages providing a 7 dB gain. The multifunction board also monitors several amplifier performance parameters and reports output power so that the BTS can maintain the output
power within specified limits. When these parameters are beyond acceptable levels, the amplifier
alarms. The multifunction board is mounted directly on a heat sink, which is temperature monitored by a thermal sensor.
The alarms are:
Temperature Alarm - If the internal temperature reaches 90°C, the PA shuts down and communicates an alarm through the digital interface.
DC/DC Alarm - If the output voltage of the converter falls below 23.5V, the PA shuts down
and communicates an alarm through the digital interface.
Over-current Alarm - If the output current of the DC/DC converter goes above a nominal
threshold (7.5 A), the PA shuts down and communicates an alarm through the digital
interface.
Communication Alarm - If the serial interface detects an error in transmission (parity, overrun, framing), an alarm is sent for one burst only during the very next burst. The PA
operation is not affected.
© Copyright Powerwave Technologies, Inc., October 2004. All rights reserved
044-05178 Rev.A
4-2
October 2004
SPA9323-30C Installation & Service Manual
Section 5 Maintenance
5-1 Introduction
The amplifier is designed to be operated without any periodic maintenance other than that recommended by the manufacturer of the BTS. Please consult your BTS manual for guidance.
© Copyright Powerwave Technologies, Inc., October 2004. All rights reserved
044-05178 Rev. A
5-1
October 2004
SPA9323-30C Installation & Service Manual
Section 6 Troubleshooting
6-1 Introduction
This section contains a list of problems and a few suggested actions that may correct the problem. If the suggested corrective action does not eliminate the problem, please contact your
Powerwave field representative or the factory for further instructions.
NOTE
Check your sales order and equipment warranty before attempting to service
or repair the unit. Do not break the seals on equipment under warranty or the
warranty will be null and void. Do not return equipment for warranty or repair
service until proper shipping instructions are received from the factory.
6-2 Troubleshooting
Refer to table 6-1 for troubleshooting suggestions.
Table 6-1 Troubleshooting
Symptom
LED not lit
LED is red
No RF
Output
1.
2.
3.
1.
2.
3.
1.
2.
3.
Suggested Action
Check that rack power connection is secure.
Check for proper power supply voltage.
Check that power switch is ON position.
Verify amplifier is enabled.
A large RF input overdrive has caused an alarm. Reduce input power and
re-enable the amplifier.
Follow recommendations of BTS operating manual.
Check input and output connections and cables for integrity and tightness.
Check RF input power to verify that it is present and within specification
range.
Contact Powerwave field representative or factory.
6-3 Return For Service Procedures
Before returning products to Powerwave, obtain a Return Material Authorization (RMA) number
and repackage the equipment as described in the following paragraphs.
6-3.1 Obtaining An RMA
An RMA number must be obtained by contacting our Repair Department at (888) 797-9283 or
(714) 466-1000, or FAX your request to (714) 466-5816. Failure to obtain this RMA number may
result in delays in receiving repair service.
6-3.2 Repackaging For Shipment
To ensure safe shipment of the amplifier, it is recommended to reuse the package designed for
the amplifier. The original packaging material is reusable. If it is not available, contact
Powerwave’s Customer Service Department for further instructions.
© Copyright Powerwave Technologies, Inc., October 2004. All rights reserved
044-05178 Rev. A
6-1
October 2004
SPA9323-30C Installation & Service Manual
Field Failure Report:
RMA No.: __________ S/N: __________
Region: ________________
Customer: ___________________
Technician: ___________________
Manufacture Date: ___________
Failure Date: ___________
Phone No.: __________
Site ID: _____________
Does customer want a Failure Analysis Report? Y / N
Failure Mode (please circle all that apply):
Loop Fail
VSWR
Low Pwr
Ovr Pwr
DC
Ovr Temp
Alarm
No RF Out
Firmware
Shipping Damage
Missing Hardware
LPA Disable
Connector Damaged
Failed During (please circle all that apply):
Installation
Normal Operation
Scheduled Maintenance
High Traffic Hour
Medium Traffic Hour
Low Traffic Hour
DOA? Y / N
Failure Frequency:
Intermittent
Permanent
Failure Details:
Did other equipment fail at the same time? (Please describe)
© Copyright Powerwave Technologies, Inc., October 2004. All rights reserved
044-05178 Rev. A
6-2
October 2004

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