all | frequencies |
|
exhibits | applications |
---|---|---|---|---|
manual |
app s | submitted / available | |||||||
---|---|---|---|---|---|---|---|---|
1 |
|
Manual | Users Manual | 686.62 KiB | ||||
1 | External Photos | |||||||
1 | Attestation Statements | |||||||
1 | Internal Photos | |||||||
1 | ID Label/Location Info | |||||||
1 | Operational Description | |||||||
1 | Test Report | |||||||
1 | Test Setup Photos | |||||||
1 | Parts List/Tune Up Info | |||||||
1 | Cover Letter(s) |
1 | Manual | Users Manual | 686.62 KiB |
MCA9129-90-A Installation & Service Manual Section 1 General Description 1-1 Introduction This manual contains information and procedures for installation, operation, and maintenance of Powerwaves MCA9129-90MCA9129-90-A multicarrier cellular amplifier. The manual is organ-
ized into six sections as follows:
Section 1. Section 2. Section 3. Section 4. Section 5. Section 6 General Description Installation Operating Instructions Principles of Operation Maintenance Troubleshooting 1-2 General Description The MCA9129-90MCA9129-90-A (see figure 1-1) is a linear, feed-forward power amplifier that operates in the 25 MHz frequency band from 869 MHz to 894 MHz. The amplifier can simultane-
ously transmit multiple frequencies, with better than -65 dBc third order intermodulation distortion
(IMD) at 100 watts output, or 60 dBc IMD at 120 watts output. It is designed for use in an ampli-
fier system that is modular in design, and is ideally suited for use in AMPS/TDMA/CDMA base stations. When used in a subrack employing four MCA9129-90MCA9129-90-A amplifiers, the system offers up to 360 watts output at 65dBc IMD performance level (430 watts output at 60dBc IMD). The plug-in Model MCA9129-
90MCA9129-90-A amplifier modules can each provide 120 watts of power and function com-
pletely independently of each other. The amplifier modules are designed for parallel operation to produce high peak power output and backup redundancy for remote applications. All solid-state, the system is designed to provide trouble-free operation with minimum maintenance. The sys-
tem's modular construction and unique and highly effective LED-based operational status and fault indicators help minimize downtime. The turn-on and turn-off sequences of voltages are fully automatic, as is overload protection and recycling. Inadvertent operator damage from front panel manipulation is virtually impossible. Each amplifier module has a status connector that allows the host system to monitor the amplifier module performance. The front panel of each amplifier module has unit level status/fault indica-
tors and an RF on/off/reset switch. Primary power for the amplifier is +27 Vdc. Cooling for each plug-in amplifier module is provided by three fans, two mounted on the front and one on the rear of the module. The fans draw outside air through the front of the module and exhaust hot air out through the rear of the module. 1-3 Functional and Physical Specifications Functional and physical specifications for the amplifier are listed in tables 1-2 and 1-3. 1-4 Equipment Changes Powerwave Technologies, Inc. reserves the right to make minor changes to the equipment, in-
cluding 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. To that end, we ask that you, our customer, share with us any information acquired in field situations that would enhance this manual. All specifications are subject to change without notice. Contact the factory for complete performance data. Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 044-05060 Rev. AC 1-1 July 2001November 2002 MCA9129-90-A Installation & Service Manual 1-5 Ordering Information Table 1-1 following gives the part numbers and descriptions to be used when ordering either an entire amplifier or replacement fans. Table 1-1 Major Amplifier Components Model Number MCA9129-
90MCA9129-90-
A 800-01024-
001800-01779-
001 800-01025-
001800-01779-
002 800-00781-002 Description 100 W 869-894 MHz MCPA Module. Front fan assembly, large. Front Rear fan assembly, small Rear fan assembly. NOTE A quality transmit filter or duplexer must be installed after this amplifier to ensure FCC Type Acceptance of the amplifier. The filter/duplexer should be rated for at least 500 Watts average power and 5000 Watts instaneous power (minimum) when four amplifiers per subrack are installed. Table 1-2 MCA9129-90MCA9129-90-A Multicarrier Cellular Amplifier Functional Specifications, 100 Watts Frequency Range Total Maximum Input Power Total Output Power BTUs @ 100 W Intermodulation Distortion and In-Band Spurious:
RF Gain at 880 MHz Gain Flatness:
Gain Variation Over Temperature:
Output Protection:
Input Port Return Loss:
Harmonics:
Out of Band Spurious:
Duty Cycle:
DC Input Power:
Operating Temperature:
Storage Temperature:
Operating Humidity:
Storage Humidity:
DC Input, Summary Alarm, and RF Input / Output Connectors:
Weight Dimensions:
869-894 MHz (25 MHz Bandwidth)
-12 dBm 100 W typical (1 Module) 3813
-65 dBc (Min) @ +24 +26 to +28 Vdc @ 100 Watts
(-55 dBc (Min) @ +23 to + 24 Vdc) 62 dB 0.7 dB @ 27 Vdc 1 Vdc 0.3 dB from 23 to 30 Vdc Mismatch Protected
-14 dB (Min) Better than -50 dBc Better than -60 dBc Continuous
+27 Vdc 1 Vdc, 45 36 Amps Max @ 100 Watts Operational +21 Vdc to 30 Vdc 0 C. to +50 C.
-40 C. to +85 C. 5 % - 95 % Relative Humidity (Noncondensing) 5 % - 95 % Relative Humidity (Noncondensing) 21-Pin D-Subminiature Combo Connector plus single-
pin D-Sub connector for additional DC capability. 45 pounds 15.72 (9U) High, 5.50 Wide, 17.1116.75 Deep All specifications are subject to change without notice. Contact the factory for complete performance data. Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 044-05060 Rev. AC 1-2 July 2001November 2002 MCA9129-90-A Installation & Service Manual All specifications are subject to change without notice. Contact the factory for complete performance data. Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 044-05060 Rev. AC 1-3 July 2001November 2002 MCA9129-90-A Installation & Service Manual NOTE A quality transmit filter or duplexer must be installed after this amplifier to ensure FCC Type Acceptance of the amplifier. The filter/duplexer should be rated for at least 500 Watts average power and 5000 Watts instaneous power (minimum) when four amplifiers per subrack are installed. Table 1-3 MCA9129-90MCA9129-90-A Multicarrier Cellular Amplifier (FCC Tested @ 120 Watts) Frequency Range Total Maximum Input Power Total Output Power BTUs @ 120 W Intermodulation Distortion and In-Band Spurious:
RF Gain at 880 MHz Gain Flatness:
Gain Variation Over Temperature:
Output Protection:
Input Port Return Loss:
Harmonics:
Out of Band Spurious:
Duty Cycle:
DC Input Power:
Operating Temperature:
Storage Temperature:
Operating Humidity:
Storage Humidity:
DC Input, Summary Alarm, and RF Input / Output Connectors:
Weight Dimensions:
869-894 MHz (25 MHz Bandwidth)
-11 -11.2dBm 120 W typical (1 Module) 4381
-60 dBc (MinMax) @ +24 +26 to +28 Vdc @ 120 Watts
(-55 dBc (Min) @ +23 to + 24 Vdc) 62 dB 0.7 dB @ 27 Vdc 1 Vdc 0.3 dB from 23 to 30 Vdc Mismatch Protected
-14 dB (Min) Better than -50 dBc Better than -60 dBc Continuous
+27 Vdc 1 Vdc, 52 40 Amps Max @ 120 Watts Operational +21 Vdc to 30 Vdc 5 0C. to +40 C.
-40 C. to +85 C. 5 % - 95 % Relative Humidity (Noncondensing) 5 % - 95 % Relative Humidity (Noncondensing) 21-Pin D-Subminiature Combo Connector plus single-
pin D-Sub connector for additional DC capability. 45 pounds 15.72 (9U) High, 5.50 Wide, 17.1116.75 Deep All specifications are subject to change without notice. Contact the factory for complete performance data. Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 044-05060 Rev. AC 1-4 July 2001November 2002 MCA9129-90-A Installation & Service Manual Figure 1-1 MCA9129-90MCA9129-90-A Amplifier All specifications are subject to change without notice. Contact the factory for complete performance data. Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 044-05060 Rev. AC 1-5 July 2001November 2002 MCA9129-90-A Installation & Service Manual Section 2 Installation 2-1 Introduction This section contains unpacking, inspection, and installation instructions / recommendations for the model MCA9129-90MCA9129-90-A multicarrier cellular amplifier. It is important that the li-
censee perform the following tasks correctly and in good faith:
1. Carefully read all material in this section prior to equipment unpacking or installation. 2. Also, read and review the operating procedures in Section 3 prior to installing the equipment. If applicable, carefully review the Federal Communications Commission (FCC) rules as they 3. apply to your installation. DON'T TAKE CHANCES WITH YOUR LICENSE. 2-2 Site Survey Powerwave Technologies recommends that site surveys be performed by qualified individuals or firms prior to equipment ordering or installation. Performing a detailed site survey will reduce or eliminate installation and turn-up delays caused by oversights. A general site survey form is pro-
vided in Appendix A. This form is commonly used by Powerwave Field Engineers and may be used as a guide. Pay particular attention to power plant capacity, air conditioning needs, floor space, and RF/DC cabling/breaker requirements. 2-3 Electrical Service Recommendations Powerwave Technologies recommends that proper AC line conditioning and surge suppression be provided on the primary AC input to the +27 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 elec-
trical service must be well grounded. Each amplifier system should have its own circuit breaker (70-amp minimum), so a failure in one does not shut off the whole installation. Circuit breakers should be thermal type, capable of han-
dling the anticipated inrush current, in a load center with a master switch. See table 2-1. A typical three-sector site will utilize three MCR4109-1 amplifier subracks, each housing up to four MCA9129-90MCA9129-90-A amplifiers. The power plant should be able to support the 540 amps 432 amps of current required by this equipment, plus the remaining base station equipment. A power plant of less than 800 amps is probably not sufficient. Since all the amplifiers are not run-
ning at full capacity at the same time in normal operation, table 2-1 describes the current load for a 3 sector (70%), 2 sector (80%) and omni (90%) site. Based on this table, an 800 amp power plant may suffice. Battery backup or UPS systems should be installed in remote sites or in sites which experience brownout conditions or generator switchovers. Adding this equipment should eliminate the need for site visits by technicians after brownouts or power outages. Battery backup systems also pro-
vide excellent DC filtering as a side benefit. 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 2-1 July 2001November 2002 MCA9129-90-A Installation & Service Manual Amplifier Power 100 100 100 100 Table 2-1 Averaged DC Current Load No. Of Amplifiers 3 Sector Averaged Current 2 Sector Averaged Current 1 Sector Averaged Current 12 8 4 1 378 252 126 31.5 288 144 36 162 40.5 2-4 Air Conditioning Each MCA9129-90MCA9129-90-A amplifier generates 3804 BTUs of heat at full power. A fully populated MCR4109-1 operating at full power will generate 15,217 BTUs of heat. A full three-
sector site employing three fully populated MCR4109-1 subracks will generate 45,652 BTUs of heat at full power (360W per subrack). A five-ton air conditioner is needed to cool this Powerwave equipment. A full three-sector site probably needs at least a five-ton air conditioner to cool all of the site's equipment, based on heat load averaging as described in table 2-2. Since all the ampli-
fiers are not running at full capacity at the same time in normal operation, table 2-2 describes the heat load for a 3 sector (70%), 2 sector (80%) and omni (90%) site. Perform a site survey to de-
termine actual air conditioning needs. Table 2-2 Averaged Heat Loading Amplifier Power 100 100 100 100 No. Of Amplifiers 12 8 4 1 3 Sector Averaged BTU's 31,956.8 21,304.5 10,652.3 2,663.1 2 Sector Averaged BTU's 1 Sector Aver-
aged BTU's 24,348.0 12,174.0 3,043.5 13,695.8 3,423.9 2-5 Unpacking and Inspection This equipment has been operated, tested, and calibrated at the factory. Only in the event of se-
vere shocks or other mistreatment should any substantial readjustment be required. Carefully unpack each piece of equipment after it has reached the installation site and is approximately in place. Carefully open the several amplifier system containers and remove the subracks, amplifier modules, input combiners, and miscellaneous interconnect cables and hardware. Retain all packing material that can be reassembled in the event that the unit must be returned to the fac-
tory. CAUTION Exercise care in handling equipment during inspection to pre-
vent damage caused by rough or careless handling. Visually inspect the cabinet and all modules for damage that may have occurred during shipment. Check for evidence of water damage, bent or warped chassis, loose screws or nuts, or extrane-
ous packing material in the connectors or fans. Inspect male connectors on modules and har-
nesses for bent connector pins. If the equipment is damaged, a claim should be filed with the car-
rier 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 pres-
ence of the delivery person. If the equipment is damaged, the carrier is your first area of re-
course. If the equipment is damaged and must be returned to the factory, write or phone for a return authorization. Powerwave may not accept returns without a return authorization. Claims 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 2-2 July 2001November 2002 MCA9129-90-A Installation & Service Manual for loss or damage may not be withheld from any payment to Powerwave, nor may any payment due be withheld pending the outcome thereof. WE CANNOT GUARANTEE THE FREIGHT CARRIER'S PERFORMANCE. 2-6 Installation Instructions (Refer to figures 1-1 and 2-1) The MCA9129-90MCA9129-90-A amplifier module is designed for installation in a subrack that permits access to the rear of the subrack for connection of DC power, RF, and monitor cables. To install the amplifier proceed as follows:
1. Install the amplifier subrack in the equipment rack and secure in place based the subrack installation manual instructions. 2. Connect the antenna cable to the output of the subrack. 3. Connect the transceiver output(s) to the input of the subrack. Refer to tables 1-1 and 1-2 for proper RF input levels. 4. Connect the alarm cable(s) to the subrack. Verify that all circuit breaker switches supplying power to the subrack are in the OFF position. Turn off external primary DC power before connecting DC power cables. WARNING 5. Connect positive primary power and negative primary power to the subrack. Tighten the subrack power connections. WARNING Do not slam amplifiers into the subracks. Forcing the amplifier into the subrack at too fast a rate may cause the pins on the 21-pin D-sub connector of the amplifier to be-
come recessed or broken. The use of too much force while installing the amplifier may also cause the splitter / combiner module of the MCR4109-1 to become poorly aligned resulting in the inoperation of an amplifier installed in one of the two outer slots. 6. Inspect the 21-pin D-sub connector on the rear of each amplifier before inserting it into the subrack. Verify that all pins are straight, no pins are recessed, and the alignment shield is not bent. At the front of the subrack, install the plug-in amplifier modules. 7. After verifying that the front panel power ON / OFF switch is in the OFF position, gently install the plug-in amplifier modules in the subrack. Tighten top and bottom thumbscrews until they are finger tight. Use a slotted screwdriver to tighten the thumbscrews an 1/8th to a 1/4 turn past finger tight. 8. Check your work before applying DC voltage to the system. Make certain all connections are tight and correct. 9. Measure primary DC input voltage. DC input voltage should be +27 Vdc 1.0 Vdc. If the DC input voltage is above or below the limits, call and consult Powerwave before you turn on your amplifier system. 10. Refer to section 3 for initial turn-on and checkout procedures. 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 2-3 July 2001November 2002 MCA9129-90-A Installation & Service Manual 2-7 Multifunction Connector The status, alarm, control, and power connections on the amplifier connectors are made through a 21-pin D-Sub male combo connector and supplemental single-pin male D-Sub connector (figure 2-1) and are listed and described in table 2-3. Figure 2-1 Amplifier Connectors (on Rear of MCA9129-90MCA9129-90-A Module) Table 2-3 Amplifier Module Status, Alarm, Control, and Power Connections Function Description Pin 21-Pin D-Sub Male Combo A1 A2 A3 A4 1 2 3 4 5 6 7 8 RF Input Power Input Ground RF Output Ground RS 485 +RxD RS 485 -RxD RS 485 +TxD RS 485 -TxD NA NA Fan Fail 9 10 11 12 13 14 15 16 17 Forward Power Monitor NA Average Power Input Address A0 Summary Fault Address A1 Module Detect Bias InputNA FP Disable Output Single-Pin D-Sub Male 1 Power Input Coaxial Contact
+27 Vdc (Power Contact) Ground (Power Contact) Coaxial Contact Ground Serial Communication Data In Serial Communication Data In Serial Communication Data Out Serial Communication Data Out TTL signal normally low. A high indicates one or bothof the fans have failed An analog DC signal representing the RF output power of the MCA. The voltage is 4 volts 100 mV at the maximum rated output power. An analog DC voltage representing the average detected power of all the MCAs in a subrack. This voltage is derived from dividing the sum of all the forward power voltages in a subrack by the number of enabled MCAs. This voltage is used by the MCA to determine a low power fault. Amp Address A0; Ground for high, float for low TTL signal normally low. A high level indicates that the MCA has been disabled by a recurring alarm fault. Amp Address A1; Ground for high, float for low Ground potential. Informs the subrack that an MCA is plugged in. TTL signal normally low for an enabled MCPA. A high level will disable the MCPA. TTL signal, low if the front panel switch is in the ON position. A high level indicates the front panel switch in the OFF position.
+27 Vdc (Power Contact) 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 2-4 July 2001November 2002 MCA9129-90-A Installation & Service Manual Section 3 Operating Instructions 3-1 Introduction This section contains operating instructions for the Multicarrier Cellular Amplifier. 3-2 Location And Function Of Amplifier Module Controls And Indicators The location and function of the plug-in amplifier module controls and indicators is shown in figure 3-1 and is described in detail in paragraphs 3-3 through 3-3.14. Figure 3-1. MCA9129-90 Amplifier Module Controls and Indicators 3-3 Controls And Indicators 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 3-1 July 2001November 2002 MCA9129-90-A Installation & Service Manual 3-3.1 27V Indicator (+27VDC) Green LED. When lit, indicates that the +27Vdc supply is greater than +21Vdc and less than
+30Vdc. The indicator will blink if the voltage is 28Vdc to 30Vdc. If the voltage source drops be-
low +21V a timer is started and the DC fail counter is incremented. After five seconds the voltage is analyzed, if still faulted the counter is incremented. If the count equals 25 before the timer reaches 15 minutes, the MCPA will enter fault mode. Fault mode will disable the MCPA. The
+27V indicator will turn off, the DC FAIL and LPA DISAB indicators will illuminate and a summary fault will occur signaling the shelf that the MCPA is disabled. In fault mode the LED indications are latched. Toggling the reset switch will enable the MCPA and clear the summary alarm and latched indicators. If 15 minutes elapse before the counter reaches 25, the counter and timer will reset to zero. If the DC input voltage exceeds +30 volts, the MCA will be disabled instantane-
ously, as indicated by the illumination of the LPA DISAB indicator. The +27V and DC FAIL indi-
cators will alternatively blink at a 1Hz rate. A timer is started and the DC fail counter is incre-
mented. After five seconds the voltage is measured. If the fault exists the counter is incre-
mented. If the count equals five before the timer reaches 15 minutes, the MCPA will enter fault mode. The +27V indicator will turn off, the DC FAIL and LPA DISAB indicators will illuminate and a summary fault will occur signaling the shelf that the MCPA is disabled. Toggling the reset switch will enable the MCPA and clear the summary alarm and latched indicators. If 15 minutes elapse before the counter reaches five, the counter and timer will reset to zero. 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 3-2 July 2001November 2002 MCA9129-90-A Installation & Service Manual 3-3.2 +15V Indicator (+15VDC) Green LED. When lit, indicates that the +15Vdc supply is greater than +14Vdc and less than
+16Vdc. If the voltage source varies out of its operating window, a timer is started and the DC fail counter is incremented. After five seconds the voltage is analyzed, if still faulted the counter is in-
cremented. If the count equals 25 before the timer reaches 15 minutes, the MCPA will enter fault mode. Fault mode will disable the MCPA. The +15V indicator will turn off, the DC FAIL and LPA DISAB indicators will illuminate and a summary fault will occur signaling the shelf that the MCPA is disabled. In fault mode the LED indications are latched. Toggling the reset switch will enable the MCPA and clear the summary alarm and latched indicators. If 15 minutes elapse before the counter reaches 25, the counter and timer will reset to zero. 3-3.3 +5V Indicator (+5VDC) Green LED. When lit, indicates that the +5Vdc supply is greater than +4.5Vdc and less than
+5.5Vdc. If the voltage source varies out of its operating window, a timer is started and the DC fail counter is incremented. After five seconds the voltage is analyzed, if still faulted the counter is in-
cremented. If the count equals 25 before the timer reaches 15 minutes, the MCPA will enter fault mode. Fault mode will disable the MCPA. The +5V indicator will turn off, the DC FAIL and LPA DISAB indicators will illuminate and a summary fault will occur signaling the shelf that the MCPA is disabled. In fault mode the LED indications are latched. Toggling the reset switch will enable the MCPA and clear the summary alarm and latched indicators. If 15 minutes elapse before the counter reaches 25, the counter and timer will reset to zero. 3-3.4 5V Indicator (5VDC) Green LED. When lit, indicates that the -5Vdc supply is greater than -5.5Vdc and less than -
4.5Vdc. If the voltage source varies out of its operating window, a timer is started and the DC fail counter is incremented. After five seconds the voltage is analyzed, if still faulted the counter is in-
cremented. If the count equals 25 before the timer reaches 15 minutes, the MCPA will enter fault mode. Fault mode will disable the MCPA. The -5V indicator will turn off, the DC FAIL and LPA DISAB indicators will illuminate and a summary fault will occur signaling the shelf that the MCPA is disabled. In fault mode the LED indications are latched. Toggling the reset switch will enable the MCPA and clear the summary alarm and latched indicators. If 15 minutes elapse before the counter reaches 25, the counter and timer will reset to zero. 3-3.5 3-3.1 RESET Switch Three position switch:
Down Position Has no effect Disabled. Center Position - Normal amplifier on position. RESET (up position) - When toggled to reset position, all the green LED indicators will turn off and all the red Status LED indicators will illuminate momentarily (LED test); this will also reset the fault latches. Then a series of fault LEDs will illuminate for 2 seconds to illustrate configuration type. If the switch is held in the reset position, a microcontroller reset will occur. This will be verified by the LEDs toggling state again. The switch is spring loaded to return to the normal ON position when released. If a fault occurs and the MCA is disabled, the alarms can be cleared and the MCA enabled by this reset position. The functions of the switch are disabled for five seconds after a power-up condition. 3-3.6 3-3.2 Over Power Indicator (OVER PWR) Red LED. When blinking,illuminated, indicates the output power from the amplifier has ex-
ceedeedd 120 52dBmwatts. When lit, indicates the output power from the amplifier exceeded 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 3-3 July 2001November 2002 MCA9129-90-A Installation & Service Manual 260 watts. If an over power condition occurs the MCA is immediately disabled. Theand the LPA DISAB indicator will illuminate and the OVER PWR indicator will blink at a 1Hz rate. A timer is started and the over power fault counter is incremented. After five seconds the MCA is enabled and the fault is analyzed. If the fault exists, the MCA is again disabled and the counter is incre-
mented. If the count equals five before the timer reaches 15 minutes, the MCPA will enter fault mode. Fault mode will disable the MCPA. The OVER PWR and LPA DISAB indicators will illumi-
nate and a summary fault will occur signaling the shelf that the MCPA is disabled. In fault mode the LED indications are latched. Toggling the reset switch will enable the MCPA and clear the summary alarm and latched indicators. If 15 minutes elapse before the counter reaches five, the counter and timer will reset to zero. 3-3.7 3-3.3 High Temperature Indicator (HIGH TEMP) Red LED. When lit, indicates that the main amplifier heat sinkbase plate temperature has ex-
ceeded 750 C. If a high temperature condition occurs a timer is started and the high temperature fault counter is incremented. After five seconds the fault is analyzed. If the fault exists, the counter is incremented. If the count equals 25 before the timer reaches 15 minutes or if the base temperature exceeds 85 C, the MCPA will enter fault mode. Fault mode will disable the MCPA. The HIGH TEMP and LPA DISAB indicators will illuminate and a summary fault will occur signal-
ing the shelf that the MCPA is disabled. In fault mode the LED indications are latched If the tem-
perature drops below 65 C, the amplifier will recover to the original enabled state and the alarm condition will be cleared. Toggling the reset switch will enable the MCPA and clear the summary alarm and latched indicators. If 15 minutes elapse before the counter reaches 25, the counter and timer will reset to zero. 3-3.8 3-3.4 VSWR Indicator (VSWR) Red LED. When lit, indicates that the reflected power detected at the amplifier output exceeds 70 46.5 dBmwatts. If a VSWR condition occurs a timer is started and the VSWR fault counter is in-
cremented. After five seconds the fault is analyzed. If the fault exists, the counter is incremented. If the count equals 25 before the timer reaches 15 minutes or if the reflected power level exceeds 150W, the MCPA will enter fault mode. Fault mode will disable the MCPA. The VSWR and LPA DISAB indicators will illuminate and a summary fault will occur signaling the shelf that the MCPA is disabled. In fault mode the LED indications are latched. Toggling the reset switch will enable the MCPA and clear the summary alarm and latched indicators. If 15 minutes elapse before the counter reaches 25, the counter and timer will reset to zero. 3-3.9 DC Fail Indicator (DC FAIL) Red LED. When lit, indicates that one of the internal DC voltages dropped below or exceeded the safe threshold level (+21 V<+27 V<+30 V, +14 V<+15 V<+16 V, +4.5 V<+5 V<+5.5 V, or
-5.5 V<-5 V<-4.5 V). If a DC fail condition occurs a timer is started and the DC fail counter is in-
cremented. After five seconds the fault is analyzed. If the fault exists, the counter is incremented. If the count equals 25 before the timer reaches 15 minutes, the MCPA will enter fault mode. Fault mode will disable the MCPA. The green indicator representing the invalid voltage will turn-off, the DC FAIL and LPA DISAB indicators will illuminate and a summary fault will occur signaling the shelf that the MCPA is disabled. In fault mode the LED indications are latched. Toggling the re-
set switch will enable the MCPA and clear the summary alarm and latched indicators. If 15 min-
utes elapse before the counter reaches 25, the counter and timer will reset to zero. If the DC in-
put voltage exceeds +30 volts, the MCA will be disabled instantaneously, as indicated by the illu-
mination of the LPA DISAB indicator. The +27V and DC FAIL indicators will alternatively blink at a 1Hz rate. A timer is started and the DC fail counter is incremented. After five seconds the voltage is measured. If the fault exists the counter is incremented. If the count equals five before the timer reaches 15 minutes, the MCPA will enter fault mode. The +27V indicator will turn off, the DC FAIL and LPA DISAB indicators will illuminate and a summary fault will occur signaling the shelf that the MCPA is disabled. Toggling the reset switch will enable the MCPA and clear the 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 3-4 July 2001November 2002 summary alarm and latched indicators. If 15 minutes elapse before the counter reaches five, the counter and timer will reset to zero. MCA9129-90-A Installation & Service Manual 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 3-5 July 2001November 2002 MCA9129-90-A Installation & Service Manual 3-3.10 3-3.5 Fan Fail Indicator (FAN FAIL) Red LED. When lit, indicates that either the upper front or rear one or more fans haves failed. The lower front fan is not monitored for failure. If one fan fails, the FAN FAIL indicator will light If the fan speed is below the threshold read at IOC2, 3, 6 or 7, the fan fail alarm LED will be illumi-
nated and a TTL high signal (+5Vdc) will be reported at pin 8 on the back plane connector. Fain failure will not trigger a summary fault condition. If both fans fail, the FAN FAIL indicator will light, a timer is started, and the fan fail counter is in-
cremented. After five seconds the fault is analyzed. If the fault exists, the counter is incremented. If the count equals 25 before the timer reaches 15 minutes, the MCPA will enter fault mode. Fault mode will disable the MCPA. The FAN FAIL and LPA DISAB indicators will illuminate and a summary fault will occur signaling the shelf that the MCPA is disabled. In fault mode the LED in-
dications are latched. Toggling the reset switch will enable the MCPA and clear the summary alarm and latched indicators. If 15 minutes elapse before the counter reaches 25, the counter and timer will reset to zero. Indicator is applicable to the large front and rear fans, not to the small front fan. Loop Indicator (LOOP FAIL) Red LED. When lit, indicates that one of the loop control voltages has transitioned above or be-
low safe operating limits. If a loop fail condition occurs a timer is started and the loop fail counter is incremented. After five seconds the fault is analyzed. If the fault exists, the counter is incre-
mented. If the count equals 25 before the timer reaches 15 minutes, the MCPA will enter fault mode. Fault mode will disable the MCPA. The LOOP and LPA DISAB indicators will illuminate and a summary fault will occur signaling the shelf that the MCPA is disabled. In fault mode the LED indications are latched. Toggling the reset switch will enable the MCPA and clear the sum-
mary alarm and latched indicators. If 15 minutes elapse before the counter reaches 25, the counter and timer will reset to zero. 3-3.12 Low Power Indicator (LOW PWR) Red LED. When lit, indicates that the RF power output from the amplifier dropped -2dB (-1,
+0dB) below the average power output of all amplifier modules in the rack. If a low power condi-
tion occurs a timer is started and the low power fault counter is incremented. After five seconds the fault is analyzed. If the fault exists, the counter is incremented. If the count equals 25 before the timer reaches 15 minutes, the MCPA will enter fault mode. Fault mode will disable the MCPA. The LOW PWR and LPA DISAB indicators will illuminate and a summary fault will occur signaling the shelf that the MCPA is disabled. In fault mode the LED indications are latched. Toggling the reset switch will enable the MCPA and clear the summary alarm and latched indicators. If 15 min-
utes elapse before the counter reaches 25, the counter and timer will reset to zero. 3-3.13 3-3.6 LPA Disable Indicator (LPA DISAB.) STATUS Indicator Green/Red LED. When lit, indicates that the MCPA was disabled due to an internal fault or by positioning the disable switch in the down position. or by the shelf performing the sleep mode function. If a fault indicator does not accompany the LA DISAB indicator, the sleep mode function is active.The status LED is green under normal operating conditions. 3.3.7 Power Circuit Breaker (OFF / ON) Rocker style circuit breaker, which controls DC power to amplifier. The circuit breaker is rated for 100 amps, with amplifier thermal impact considered. 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 3-6 July 2001November 2002 MCA9129-90-A Installation & Service Manual 3-4 Initial Start-Up And Operating Procedures The only operating controls on each amplifier module are the rocker-style power switch and the RESET switch. Always turn the amplifier off when disconnecting and reconnecting RF interface ca-
bles. Failure to do so may cause damage to the amplifier and/or personal injury. WARNING 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 prop-
erly terminated at 50 ohms. Do not operate the amplifier without a load attached. Re-
fer to tables 1-1and 1-2 for input power requirements. Excessive input power may damage the amplifier The output coaxial cable between the amplifier and the antenna must be 50 ohm co-
axial cable. Use of any other cable, will distort the output. NOTE 2. Verify that the amplifiers front panel power rocker switch is in the OFF position. 3. Turn on the power supply that provides +27 Vdc to the amplifier system. Do not apply an RF signal to the amplifier system. 4. Set the amplifiers front panel power rocker switch to the ON position. 5. Visually check the indicators on each amplifier module, and verify that the following indicators are as follows:
A. LPA DISAB. Indicator (red) should turn off after 2.5 seconds. Status indicator should il-
luminate green immidiately upon startup. B. The +27VDC, +15VDC, +5VDC and -5VDC indicators (green) on all amplifier modules should be on. The VSWR, Over Power, High Temp and Fan Fail LEDs should be off. 6. Follow the power setting procedure set forth in the amplifier subrack or system integration manual. Turn on external exciter/transceiver and apply RF input signals. 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 3-7 July 2001November 2002 MCA9129-90-A Installation & Service Manual Section 4 Principles of Operation 4-1 Introduction This section contains a functional description of the Multicarrier Cellular Amplifier. 4-2 RF Input Signal The maximum input power for all carrier frequencies should not exceed the limits specified in ta-
ble 1-2. For proper amplifier loop balance, the out of band components of the input signals should not exceed -40 dBc. The input VSWR should be 2:1 maximum (or better). 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. If the amplifier is operated into a filter, it will maintain its distortion characteristics outside the signal band even if the VSWR is infinite, provided the reflected power does not exceed one watt. A parasitic signal of less than one watt incident on the output will not cause distortion at a higher level than the normal forward distortion (i.e. -65 dBc). 4-4 System Functional Description The MCA9129-90MCA9129-90-A amplifier is a linear, feed-forward power amplifier that operates in the 25 MHz frequency band from 869 MHz to 894 MHz. A typical four-module system is shown in figure 4-1. The power output specification is listed in table 1-2. Each amplifier is a self-
contained plug-in module and is functionally independent of the other amplifier modules. The amplifier modules are designed for parallel operation to achieve high peak power output, and for redundancy in unmanned remote locations. Each amplifier in the system can simultaneously transmit multiple carrier frequencies, at an average total power output of 90 watts (1 amplifier module in a subrack unit) to 360 watts (4 amplifier modules), with -65 dBc third order intermodula-
tion distortion (IMD). Each amplifier in the system has been FCC tested to simultaneously transmit multiple carrier frequencies, at an average total power output of 108 watts (1 amplifier module in a subrack unit) to 430 watts (4 amplifier modules), with -60 dBc third order intermodulation distortion
(IMD). Refer to the MCR4109-1 subrack installation and service manual (044-05061) for com-
plete system level power and IMD specifications. The output from each amplifier is an amplified composite signal of approximately 100 watts at 65dBc IMD (120 watts at 60dBc IMD) before combiner losses. All phase and gain corrections are performed on the signal(s) in the individual amplifier modules. In a four -module system, the amplifier outputs are fed to a power combiner and combined to form a composite RF output of up to 360 watts at 65dBc IMD (430 watts at 60dBc IMD). Each amplifier module has an alarm and display board that monitors the amplifier performance. If a failure or fault occurs in an amplifier module, it is displayed on the individual amplifier front panel. 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 4-1 July 2001November 2002 Amplifier Subrack Splitter ISO ISO ISO ISO RF Input VVA ISO Gain Adjust Form-C Alarms RS-485 Alarm Interface 4x +27VDC 4x Ground Ctrl Micro Processor
(DC, RF Relay, Alarms) Amplifier Subrack Splitter ISO ISO ISO ISO RF Input VVA ISO Gain Adjust Form-C Alarms RS-485 Alarm Interface 4x +27VDC 4x Ground Ctrl Micro Processor
(DC, RF Relay, Alarms) MCA9129-90-A Installation & Service Manual MCA9129-90-A Alarm MCA9129-90-A Alarm Alarm MCA9129-90-A MCA9129-90-A Alarm MCA9129-90 Alarm MCA9129-90 MCA9129-90 Alarm Alarm MCA9129-90 Alarm Sample RF Output Sample RF Output Amplifier Subrack C o m b i n e r True RMS Amplifier Subrack C o m b i n e r True RMS Figure 4-1 MCA9129-90MCA9129-90-A Four Module Amplifier System 4-5 MCA9129-90MCA9129-90-A Amplifier Module The amplifier module, figure 4-2, has an average output of 120 watts power (1200 watts peak power) with intermodulation products suppressed to better than -65 dBc below carrier levels at 100 watts output, -60 dBc at 120 watts output. The amplifier provides an amplified output signal with constant gain and phase by adding approximately 30 dB of distortion cancellation on the out-
put signal. Constant gain and phase is maintained by continuously comparing active paths with passive references, and correcting for small variations through the RF feedback controls. All gain 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 4-2 July 2001November 2002 and phase variations, for example those due to temperature, are reduced to the passive reference variations. The amplifier module is comprised of:
MCA9129-90-A Installation & Service Manual Preamplifiers Main amplifier Error amplifier Two feed-forward loops with phase-shift and gain controls DC/DC power regulator Alarm monitoring, control and display panel The main amplifier employs class AB amplification for maximum efficiency. The error amplifier and feed forward loops are employed to correct signal nonlinearities introduced by the class AB main amplifier. The error amplifier operates in class AB mode. The RF input signals are ampli-
fied by a preamp and coupled to an attenuator and phase shifter in the first feed-forward loop. The main signal is phase shifted by 180 degrees and amplified in the premain amplifier. The out-
put from the premain amplifier is fed to the class AB main amplifier. The output from the main amplifier is typically 120 140 watts. The signal is output to several couplers and a delay linefilter. The signal output from the main amplifier is sampled using a coupler, and the sample signal is combined with the main input signal and input to the second feed-forward loop. The error signal is attenuated, phase shifted 180 degrees, then fed to the error amplifier where it is amplified to a level identical to the sampled output from the main amplifier. The output from the error amplifier is then coupled back and added to the output from the main amplifier. The control loops continu-
ously make adjustments to cancel out any distortion in the final output signals. The primary function of the first loop is to provide an error signal for the second loop. The primary function of the second loop is to amplify the error signal to cancel out spurious products devel-
oped in the main amplifier. The input signal is amplified by a preamplifier and fed to a coupler and delay line. The signal from the coupler is fed to the attenuator and phase shifter in the 1st loop. The first loop control section phase shifts the main input signals by 180 degrees and constantly monitors the output for correct phase and gain. 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 4-3 July 2001November 2002 MCA9129-90-A Installation & Service Manual 1st Loop Phase & Gain Pre Main
-40dB
-40dB Delay
-8.5dB Main Amp FWD PWR RF Out RFL PWR Pre Amp Delay 2nd Loop Phase & Gain Error Amp Feed Forward Loop control
+15 +5 -5 Power Supply
+27VDC Alarms & Display Smart Rack 1st Loop Phase & Gain Pre Main Main Amp FWD PWR Front Panel
-40dB
-30dB Delay
-10dB RF Out RFL PWR Pre Amp Delay 2nd Loop Phase & Gain Error Amp Feed Forward Loop control
+15 +5 -5 Power Supply
+27VDC Alarms & Display Smart Rack Front Panel Figure 4-2 MCA9129-90MCA9129-90-A Power Amplifier Module Functional Block Diagram The 2nd loop control section obtains a sample of the distortion added to the output signals by the main amplifiers, phase shifts the signals by 180 degrees, then feeds it to the error amplifier. There it is amplified to the same power level as the input sample and coupled on to the main out-
put signal. The final output is monitored by the 2nd loop and adjusted to ensure that the signal distortion and IMD on the final output is canceled out. 4-5.1 Main Amplifier The input and output of the amplifier employ three-stage, class AB amplifiers which provide ap-
proximately 30 15 dB of gain in the 25 MHz frequency band from 869 MHz to 894 MHz. The am-
plifier operates on +27 Vdc, and a bias voltage of +5 +12 Vdc, and is mounted directly on a heat sink which is temperature monitored by a digital thermostat IC. If the heat sink temperature ex-
ceeds 92 85 C, the thermostat opens and a high temperature fault occurs. The alarm logic con-
trols the +5 12 Vdc bias voltage that shuts down the amplifier. 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 4-4 July 2001November 2002 MCA9129-90-A Installation & Service Manual 4-5.2 Error Amplifier The main function of the error amplifier is to sample and amplify the signal distortion level gener-
ated by the main amplifier, to a level that cancels out the distortion and IMD when the error signal is coupled onto the main signal at the amplifier output. The error amplifier is a class AB amplifier, has 50 15 dB of gain. The amplifier operates on +27 Vdc and a bias voltage of +15 +12Vdc and is mounted directly on a heat sink. 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 4-5 July 2001November 2002 MCA9129-90-A Installation & Service Manual 4-5.3 Amplifier Monitoring In the main and error amplifier modules, all normal variations are automatically compensated for by the feedforward loop control. However, when large variations occur beyond the adjustment range of the loop control, a loop fault will occur. The alarms are displayed in the front panel indi-
cators and output via a 21-pin connector on the rear of the module to the subrack summary board for subsequent remote monitoring. 4-5.4 Amplifier Module Cooling Although each amplifier module contains its own heat sink, It is cooled with forced air. Three fans for are used for forced air cooling and redundancy. The fans are located on the front and rear of the amplifier module, draw air in through the rear of the amplifier, and exhaust hot air out the front of the module. The lower front fan is not monitored for failure as are the other two. The fans are field replaceable (refer to paragraph 5-6.2). 4-6 Power Distribution Primary DC power for the system is provided by the host system to the subrack. The subrack supplies each amplifier module with +27 Vdc directly and via the RF power splitter/combiner. The amplifier module has linear and switching regulators that generates required DC voltages such as a DC/DC converter that converts the +27 Vdc to +15 Vdc, +5 Vdc, +9V and -5 Vdc from +27Vdc. 4-7 Intermodulation The MCA9129-90MCA9129-90-A amplifier is designed to deliver a 120-watt composite average analog power, multicarrier signal, occupying a bandwidth less than or equal to 25 MHz, in the bandwidth from 869-894 MHz. The maximum average power for linear operation, and thus the amplifier efficiency, will depend on the type of signal amplified. 4-7.1 Two-Tone Intermodulation When measured with two equal CW tones spaced anywhere from 30 kHz to 25 MHz apart, and at any power level up to the peak power, the third order intermodulation products will be below
-65 dBc at 100 watts output, below 60 dBc at 120 watts output. 4-7.2 Multitone Intermodulation Adding more tones to the signal will lower individual intermodulation products. If the frequencies are not equally spaced, the level of intermodulation products gets very low. When the frequencies are equally spaced, those products fall on top of each other on the same frequency grid. The av-
erage power of all intermodulation beats falling on the same frequency is called the composite in-
termodulation; it is -65 dBc @ 100 W output, -60 dBc @ 120 W output, or better, with a maximum of one MHz channel spacing. 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 4-6 July 2001November 2002 MCA9129-90MCA9129-90-A Installation & Service Manual Section 5 Maintenance 5-1 Introduction This section contains periodic maintenance and performance test procedures for the Multicarrier Cellular Amplifier. It also contains a list of test equipment required to perform the identified tasks. 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. 5-2 Periodic Maintenance Periodic maintenance requirements are listed in table 5-1. Table 5-1 also lists the intervals at which the tasks should be performed. Wear proper eye protection to avoid eye injury when using compressed air. WARNING Table 5-1 Periodic Maintenance Interval Action 30 Days Inspect and clean per paragraph 5-4 Task Cleaning Air Vents Inspection Cables and Connectors Performance Tests 12 Months 12 Months Inspect signal and power cables for frayed insulation. Check RF connectors to be sure that they are tight. Perform annual tests in accordance with individual manuals for amplifiers. 5-3 Test Equipment Required For Test Test equipment required to test the amplifier system is listed in Table 5-2. Equivalent test equip-
ment may be substituted for any item, keeping in mind that a thermistor type power meter is re-
quired. All RF test equipment must be calibrated to 0.05 dB resolution. Any deviation from the nominal attenuation must be accounted for and factored into all output readings. NOTE 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 5-1 July 2001November 2002 MCA9129-90MCA9129-90-A Installation & Service Manual Table 5-2 Test Equipment Required Nomenclature Signal Generator (4 each) 20 dB Attenuator, 250 500 Watt 20 dB Attenuator, 20 Watt (2 each) Spectrum Analyzer Coax Directional Coupler Power Meter / Sensor Variable Attenuator Four Tone Combiner Network Analyzer Current Probe Manufacturer H.P.RDL Tenuline Weinschel Tenuline H.P. H.P. H.P. H.P. Agilent Model 8656BIMD-801D-03A WA53-20-34 8560E 778D 437B / 8481A 8753C8753ES 1146A 5-4 Cleaning Air Inlets/Outlets The air inlets and outlets should be cleaned every 30 days. If the equipment is operated in a se-
vere dust environment, they should be cleaned more often as necessary. Turn off DC power source before cleaning fans. If dust and dirt are allowed to accumulate, the cooling efficiency may be diminished. Using either compressed air or a brush with soft bristles, loosen and remove ac-
cumulated dust and dirt from the air inlet panels. 5-5 Performance Test Performance testing should be conducted every 12 months to ensure that the amplifier system meets the operational specifications listed in table 5-3. Also verify system performance after any amplifier module is replaced in the field. The test equipment required to perform the testing is listed in table 5-2, and the test setup is shown in figure 5-1. NOTE The frequencies used in this test are typical for an amplifier with a 25-MHz band from 869 MHz to 894 MHz. Select evenly spaced F1, F2, F3, and F4 frequencies, that cover the instantaneous bandwidth of your system. 5-5.1 Amplifier Performance Test This test is applicable to a subrack equipped with one to four plug-in MCA9129-90MCA9129-90-A amplifier modules. Perform the tests applicable to your system. To perform the test, proceed as follows:
1. Connect test equipment to the subrack as shown in figure 5-1. NOTE Do not apply any RF signals at this time. 2. Turn on all four signal generators and set frequency F1 to 880, 881, 882, 883, 884, 885, 886 and 887 MHz., F2 to 881 MHz, F3 to 882 MHz, and F4 to 883 MHz. Adjust each signal gen-
erator output so that the composite power equals 12dBm.sum power output from all four signal generators equals -4 dBm at the output of the 4-way combiner. 5-5.1.1 Single Amplifier IMD Test 3. Adjust attenuator for an input signal at l2 -12dBm. Reset channel 1 amplifier with the front panel ON/OFF/RESET switch, and set switch to ON. Set amplifiers 2, 3, and 4 to OFF. Ad-
044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 5-2 July 2001November 2002 MCA9129-90MCA9129-90-A Installation & Service Manual just variable attenuator to set amplifier power output on power meter to 90 watts. Measure IMD on spectrum analyzer. IMD should be -65 dBc max. Record test data in table 5-3. Switch tested amplifier to OFF. 4. Repeat step 3 for amplifiers 2, 3, and 4, as applicable, for each plug-in amplifier module. 5-5.1.2 Two Amplifier IMD Test 5. Reset and turn on channel 1 and 2 amplifier modules, and turn off channel 3 and 4 amplifi-
ers. Adjust the variable attenuator to set power output on power meter to 180 watts. Meas-
ure IMD on spectrum analyzer. IMD should be -65 dBc maximum. Record test data in table 5-3. 6. Reset and turn on channel 1 and 3 amplifiers, and turn off channel 2. Adjust the variable at-
tenuator to set power output on power meter to 180 watts. Measure IMD on spectrum ana-
lyzer. IMD should be -65 dBc maximum. Record test data in table 5-3. 7. Reset and turn on channel 1 and 4 amplifiers and turn off channel 3. Adjust the variable at-
tenuator to set power output on power meter to 180 watts. Measure IMD on spectrum ana-
lyzer. IMD should be -65 dBc maximum. Record test data in table 5-3. 8. Reset and turn on channel 2 and 3 amplifiers, and turn off channel 1. Adjust the variable at-
tenuator to set power output on power meter to 180 watts. Measure IMD on spectrum ana-
lyzer. IMD should be -65 dBc maximum. Record test data in table 5-3. 9. Reset and turn on channel 2 and 4 amplifiers, and turn off channel 3. Adjust the variable at-
tenuator to set power output on power meter to 180 watts. Measure IMD on spectrum ana-
lyzer. IMD should be -65 dBc maximum. Record test data in table 5-3. 10. Reset and turn on channel 3 and 4 amplifiers, and turn off channel 2. Adjust the variable at-
tenuator to set power output on power meter to 180 watts. Measure IMD on spectrum ana-
lyzer. IMD should be -65 dBc maximum. Record test data in table 5-3. 5-5.1.3 Three Amplifier IMD Test 11. Reset and turn on channel 1, 2 and 3 amplifiers, and turn off channel 4. Adjust the variable attenuator to set power output on power meter to 270 watts. Measure IMD on spectrum analyzer. IMD should be -65 dBc maximum. Record test data in table 5-3. 12. Reset and turn on channel 1, 2 and 4 amplifiers, and turn off channel 3. Adjust the variable attenuator to set power output on power meter to 270 watts. Measure IMD on spectrum analyzer. IMD should be -65 dBc maximum. Record test data in table 5-3. 13. Reset and turn on channel 1, 3 and 4 amplifiers, and turn off channel 2. Adjust the variable attenuator to set power output on power meter to 270 watts. Measure IMD on spectrum analyzer. IMD should be -65 dBc maximum. Record test data in table 5-3. 14. Reset and turn on channel 2, 3 and 4 amplifiers, and turn off channel 1. Adjust the variable attenuator to set power output on power meter to 270 watts. Measure IMD on spectrum analyzer. IMD should be -65 dBc maximum. Record test data in table 5-3. 5-5.1.4 Four Amplifier IMD And Current Test 15. Reset and turn on channel 1, 2, 3, and 4 amplifiers. Adjust the variable attenuator to set power output on power meter to 360 watts. Measure IMD on spectrum analyzer. IMD should be -65 dBc maximum. Record test data in table 5-3. 16. With the power amplifier set at 360 watts power output, use the current probe (magnetic field type) and measure the dc current flow from the +27 Vdc power source. Current should be 180 144 amps maximum. Record test data in table 5-3. 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 5-3 July 2001November 2002 MCA9129-90MCA9129-90-A Installation & Service Manual 5-5.1.5 Harmonics Test 17. With the power amplifier set at 360 watts power output, use the spectrum analyzer and check the frequency band from 869 MHz to 894 MHz for harmonics. Harmonics should be -50 dBc maximum. Record test data in table 5-3. 5-5.1.6 Spurious Test 18. With the power amplifier set at 360 watts power output, use the spectrum analyzer and check the frequency band from 869 MHz to 894 MHz for spurious signals. Spurious signals should be -65 dBc maximum. Record test data in table 5-3. 5-5.1.7 Gain Test 19. Disconnect spectrum analyzer from test setup, and connect the network analyzer. 20. Set network analyzer as follows:
A. Power output to -4 -12 dBm. B. Frequency start to 869 MHz. C. Frequency stop to 894 MHz. D. Normalize the network analyzer for gain and return loss. 21. Reset and turn on the channel 1 amplifier, turn off channel 2, 3 and 4 amplifiers. Check the gain across the band from 869 MHz to 894 MHz. Gain should be as specified in table 1-2 1 dB. Record test data in table 5-3. 22. Turn off the channel 1 amplifier and reset and turn on the channel 2 amplifier. Check the gain across the band from 869 MHz to 894 MHz. Gain should be as specified in table 1-2 1 dB. Record test data in table 5-3. 23. Repeat steps 21 and 22 and individually check and record the gain of each amplifier module in the system. Record test data in table 5-3. 24. Refer to table 5-3. Collectively reset and turn on the amplifier modules in groups of two three and four, as shown in table 5-3, and check the gain of each group. The minimum/maximum gain of each group of amplifiers should be within the limits shown in table 5-3. Record test data in table 5-3. 5-5.1.8 Input Return Loss Test 25. Reset and turn on all amplifier modules in the main frame. Read and record the S11 return loss measurement on network analyzer. Record test data in table 5-3. 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 5-4 July 2001November 2002 MCA9129-90MCA9129-90-A Installation & Service Manual Figure 5-1 Amplifier System Test Setup Diagram 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 5-5 July 2001November 2002 MCA9129-90MCA9129-90-A Installation & Service Manual Table 5-3 Multicarrier Cellular Amplifier Test Data Sheet DATE _________________________________ MODULE #1 S/N ________________________ MODULE #2 S/N ________________________ MODULE #3 S/N ________________________ MODULE #4 S/N ________________________ TEST CONDITIONS:
Load and Source Impedance: 50 Ohms VSWR: < 1.2:1 Supply Voltage: +27 Vdc 0.1 Vdc TEST 4 8-TONE IMD One Module 4 8 -TONE IMD Two Modules 4 8 -TONE IMD Three Modules 4 8 -TONE IMD Four Modules RF Gain One Module RF Gain Two Modules RF Gain Three Modules RF Gain Four Modules Harmonics Spurious Gain Flatness Input Return Loss DC Power SPECIFICATION Vcc = 27 Vdc PO = 90 W Freq.: 880, 881, 882, 883 - 887 MHz Vcc = 27 Vdc PO = 180 W Freq.: 880, 881, 882, 883 - 887 MHz Vcc = 27 Vdc PO = 270 W Freq.: 880, 881, 882, 883 - 887 MHz Vcc = 27 Vdc PO = 360 W Freq.: 880, 881, 882, 883 - 887 MHz Vcc = 27 Vdc PO = 90 W Freq. = 880 MHz Vcc = 27 Vdc PO = 180 W Freq. = 880 MHz Vcc = 27 Vdc PO = 270 W Freq. = 880 MHz Vcc = 27 Vdc PO = 360 W Freq. = 880 MHz Vcc = 27 Vdc PO = 360 W 869 - 894 MHz Band Vcc = 27 Vdc PO =360 W 869 - 894 MHz Band Vcc = 27 Vdc PO =360 W 869 - 894 MHz Band Vcc = 27 Vdc PO = 360 W 869-894 MHz Band Vcc = 27 Vdc PO = 360 W 4 8 Tones MIN MAX
-65 dBc 1 2 DATA 4 3
-65 dBc 1,2 1,3 1,4 2,3 2,4 3,4
-65 dBc 1,2,3 1,2,4 1,3,4 2,3,4
-65 dBc All Table 1-2
-1 dB Table 1-2
+1 dB 1 2 3 4 Table 1-2
-1 dB Table 1-2
+1 dB Table 1-2
-1 dB Table 1-2
+1 dB Table 1-2
-1 dB Table 1-2
+1 dB
-50 dBc
-65 dBc 0.7 dB 180 144 Amps
-18 dB 1,2 1,3 1,4 2,3 2,4 3,4 1,2,3 1,2,4 1,3,4 2,3,4 All All All All All All PASS ___________________________________ FAIL ___________________________________ Tested by ________________________________ 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 5-6 July 2001November 2002 MCA9129-90MCA9129-90-A Installation & Service Manual 5-6 Field Replaceable Parts And Modules The following parts and modules can be replaced in the field on site by a qualified technician with experience maintaining RF power amplifiers and similar equipment:
1. MCA9129-90MCA9129-90-A Power Amplifier Modules 2. Cooling Fans 5-6.1 MCA9129-90MCA9129-90-A Power Amplifier Module To replace a power amplifier module, proceed as follows:
1. Set ON/OFF/RESET switch on the front panel of the amplifier module to OFF. 2. Loosen two screws that secure amplifier module to subrack. CAUTION When removing the amplifier from the subrack, it is very important to support the am-
plifier such that the rear of the module does not suddenly drop when the guide rail disengages from the track. A drop such as this could damage the rear multipin con-
nector. 3. With steady even pressure, use handle on front of amplifier to pull module out of subrack. 5-6.2 Cooling Fans To replace a cooling fan, proceed as follows:
1. Remove amplifier module from subrack; see paragraph 5-6.1 preceding. 2. Pull out snap fasteners that secure fan to amplifier module. Disconnect fan power connector from amplifier module. Install replacement in reverse order of steps 1 and 2 above. 3. 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 5-7 July 2001November 2002 MCA9129-90MCA9129-90-A 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 prob-
lem. If the suggested corrective action does not eliminate the problem, please contact your Pow-
erwave 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 The ON/RESET switch can clear many alarm faults. It is located on the front panel of the faulted amplifier module. An attempt to reset the fault should be your first course of action. 24 Hour tech-
nical support service is available at our main phone number 888-797-9283 or 714-466-1000; se-
lect the "System Operator Technical Support" option to receive assistance from Powerwave's Ap-
plications Support Group. The following are general guidelines established to aid Field Engineers or Cell Site Technicians in the proper method of Powerwave equipment fault resolution by fault mode. 6-2.1 DC Voltage Indicators Not Status Lamp not Illuminated 1. Check the front panel ON/OFF switch. 2. Check the power plant circuit breaker. 3. Check for +27 + 1.0 VDC at the amplifier subrack input. A. B. If the voltage is low, verify that all DC connections between the power plant and the am-
plifier subrack are tight. If the voltage is correct, 1. Remove the amplifier from the subrack slot and move the amplifier to another am-
plifier subrack slot. 2. Check the voltage on the power pins of the mating amplifier and amplifier subrack connector. 3. Verify that the amplifier DC connections are not damaged. 4. Return the amplifier to the factory for repair. 6-2.2 OVER PWR Illuminated or Blinking 1. If all the amplifiers in a given amplifier subrack are in Over Pwr and the LPA DisableStatus LED is illuminate, then the input RF power level is too high and the amplifiers have been dis-
abled. RF power may be incorrectly set during equipment commissioning. This may be due to a faulty jumper cable. Verify the amplifier subrack output cables, transmit filter, and direc-
tional coupler are in proper working order. The loss between the amplifier subrack and the hatch plate is typically less than 2.0 dB. 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 6-1 July 2001November 2002 MCA9129-90MCA9129-90-A Installation & Service Manual 2. 3. If all the amplifiers in a given amplifier subrack are in Over Pwr and the LPA DisableStatus LED is not illuminated, then the input RF power level is too high. The amplifier subrack is at-
tempting to maintain a safe power output level (smart subracks with True RMS power de-
tectors and voltage variable attenuators only). This may be validated by checking the APC LED on the subrack for a blinking state. RF power may be incorrectly set during equipment commissioning. This may be due to a faulty jumper cable. Verify the amplifier subrack output cables, transmit filter, and directional coupler are in proper working order. The loss between the amplifier subrack and the hatch plate is typically less than 2.0 dB. If only one or two amplifiers in a given amplifier subrack are in Over Pwr and the LPA Dis-
ableStatus LED is blinkingis illuminated after disabling or removing an amplifier, then the amplifier subrack is probably in Sleep ModeConstant Gain Mode.(smart subracks with True RMS power detectors and voltage variable attenuators only). A. The input power level must be adjusted to compensate for the loss of any module when in constant gain mode. Pressing the On/Off/Reset switch momentarily in the Up position or cycling DC power on the amplifier should bring the amplifier back on-line. B. Sleep ModeConstant gain firmware may be disabled in the field with a PC interface and software available from Powerwave. 4. Move the amplifier to another slot in a different subrack, if available. Mark the amplifier with a sticker or place a tie wrap on the handle to identify the amplifier. Monitor for future failure. A. B. If the same amplifier fails again, return the amplifier to the factory for repair. If the replacement amplifier in the original subrack fails, replace the amplifier subrack. 6-2.3 HIGH TEMP Illuminated 1. If an amplifier is in HIGH TEMP and the LPA DisableStatus LED is illuminate, then the ampli-
fier heat sinkmain amp base plate temperature is too high. This may be due to:
A. High ambient temperature. B. Fan failure. C. Insufficient air-volume capacity. Most of Powerwaves amplifiers require a certain amount of free-space to allow proper airflow. 2. Correct the heat problem, then reset the amplifier by momentarily pressing the Reset button on the amplifier front panel up. 6-2.4 VSWR Illuminated 1. 2. If all the amplifiers in a given amplifier subrack are in VSWR and the LPA DisableStatus LED is illuminate, then the output RF reflected power level is too high and the amplifiers have been disabled. This may be due to a faulty jumper cable or transmit filter. Verify the amplifier subrack output cables, transmit filter, and directional coupler are in proper working order. The loss between the amplifier subrack and the hatch plate is typically less than 2.0 dB. This fault normally occurs during site or just following site power setting and normally takes about 10 to 15 minutes to reveal itself. This fault may not occur at low power levels (i.e. when just one or two channels are up). If one amplifier in a given amplifier subrack is in VSWR and the LPA Disable LED is illumi-
nated, then the output RF reflected power level is too high for that amplifier. This may be due to A. A damaged or recessed amplifier RF output connector. Return the amplifier to the fac-
tory for repair. Mishandling of the amplifier normally causes recessed pins. Before installing an ampli-
fier, look at the D-sub connector to ensure none of the pins are recessed, bent or that 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 6-2 July 2001November 2002 MCA9129-90MCA9129-90-A Installation & Service Manual B. the outer connector shield is not damaged. When installing the amplifier, do not force the amplifier into the slot. Gentle even pressure is all that is needed to properly seat the amplifier. Improper seating of the amplifier. 1. Ensure the amplifier thumbscrews are properly tightened. 2. Try seating the amplifier in another subrack slot. 3. Try seating the amplifier in a subrack in another sector. 6-2.5 DC FAIL Illuminated If an amplifier is in DC FAIL and the LPA Disable LED is illuminate, then one of the four amplifier DC voltages is either out of tolerance or not present. Return the amplifier to the factory for repair. 6-2.6 6-2.5 FAN FAIL Illuminated If an amplifier is in FAN FAIL, then the one or more of the amplifiers cooling fans has failed. Re-
place the fan. Model MCA9129-90MCA9129-90-A Amplifiers A single A fan failure does not cause the amplifier to shut down. Two failed large fans cause the amplifier to shut down. These amplifiers have a small fan on the front lower panel. The smaller front fans performance is not monitored. 6-2.7 6-2.6 LOOP FAIL Illuminated Loop Fail is always accompanied by LPA Disable LED illuminated. This may be due to 1. 2. A damaged error amplifier. This can be caused by Inability of the amplifier to maintain a 180 phase shift between the first and second loops. A. Out of band spurious or intermods being applied at too high of a level at the amplifier in-
put port. An input band-pass filter may be necessary to correct this problem. B. Disconnecting amplifier RF output cables while the amplifier is still turned on. Always turn the amplifier off when moving output RF cables from the hatch plate to test equip-
ment and back again. 3. Improper power balance between amplifiers in a given subrack. A. Ensure the amplifier thumbscrews are properly tightened. Reset the amplifier by mo-
mentarily pressing the Reset button on the amplifier front panel up. B. Try seating the amplifier in another subrack slot. C. Try seating the amplifier in a subrack in another sector. 6-2.8 6-2.7 LOW PWR Illuminated Low Power is always accompanied by the LPA Disable LED illuminated. This is due to the gain of either the internal preamplifier or main amplifier being 0.5 dB (typically) or more below the ampli-
fier specification. The amplifier should be returned to the factory. 6-2.9 6-2.8 LPA DISABLEStatus LED Illuminated Only 1. LPA DisableStatus LED only illuminated indicates that the amplifier RF section is disabled. This may be due to the following:
044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 6-3 July 2001November 2002 MCA9129-90MCA9129-90-A Installation & Service Manual A. An accompanied alarm indicating a critical amplifier fault (i.e. Loop Fail fault). Such as:
Loop Fail DC Fail Low Power Error Amp Over Current Input Overdrive For the alarm conditions above, the DB-9 connector on the front panel must be inter-
faced via RS-232 with a PC to determine exact cause for shutdown. This information is accessible with a Powerwave GUI interface program and the flight recorder provided in the amplifier software. B. The front panel disable switch is in the down position. B.A response to a subrack command, purposely inhibiting the amplifier (i.e. Sleep Mode acti-
vation) C.Improper seating of the amplifier in the subrack. 2. Ensure the amplifier thumbscrews are properly tightened. Reset the amplifier by momentarily pressing the Reset button on the amplifier front panel up. 3. Try seating the amplifier in another subrack slot. 4. Try seating the amplifier in a subrack in another sector. 6-3 Return for Service Procedures When returning products to Powerwave, the following procedures will ensure optimum response. 6-3.1 Obtaining an RMA A Return Material Authorization (RMA) number must be obtained prior to returning equipment to the factory for service. Please contact our Repair Department at (888) 797-9283 or (714) 466-
1000 to obtain this number, 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 that the package designed for the amplifier be used. The original packaging material is reusable. If it is not available, contact our Repair Department for packing materials and information. 044-05060 Rev. C Copyright Powerwave Technologies, Inc., July 2001. All rights reserved 6-4 July 2001November 2002
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2003-01-13 | 869 ~ 894 | AMP - Amplifier | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2003-01-13
|
||||
1 | Applicant's complete, legal business name |
Powerwave Technologies Inc
|
||||
1 | FCC Registration Number (FRN) |
0006343024
|
||||
1 | Physical Address |
1801 E St Andrew Pl.
|
||||
1 |
Santa Ana, California 92705
|
|||||
1 |
United States
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
c******@ckc.com
|
||||
1 | TCB Scope |
B1: Commercial mobile radio services equipment in the following 47 CFR Parts 20, 22 (cellular), 24,25 (below 3 GHz) & 27
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
E67
|
||||
1 | Equipment Product Code |
5JS0063
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
J**** D******
|
||||
1 | Title |
Principal Reliability Engineer
|
||||
1 | Telephone Number |
714 4********
|
||||
1 | Fax Number |
714 4********
|
||||
1 |
j******@pwav.com
|
|||||
app s | Technical Contact | |||||
1 | Firm Name |
CKC Laboratories, Inc
|
||||
1 | Name |
M****** C****
|
||||
1 | Physical Address |
5473A Clouds Rest
|
||||
1 |
Mariposa, California 95338
|
|||||
1 |
United States
|
|||||
1 | Telephone Number |
209-6******** Extension:
|
||||
1 | Fax Number |
209-9********
|
||||
1 |
s******@ckc.com
|
|||||
app s | Non Technical Contact | |||||
1 | Firm Name |
CKC Laboratories, Inc
|
||||
1 | Name |
M****** C******
|
||||
1 | Physical Address |
5473A Clouds Rest
|
||||
1 |
Mariposa, California 95338
|
|||||
1 |
United States
|
|||||
1 | Telephone Number |
209-6******** Extension:
|
||||
1 | Fax Number |
209-9********
|
||||
1 |
s******@ckc.com
|
|||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | AMP - Amplifier | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Amplifier, MCA9129-90-A | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Grant Comments | Power output is conducted. The antenna(s) used with this transmitter must be fix-mounted on outdoor permanent structures. RF exposure compliance is addressed at the time of licensing, as required by the responsible FCC Bureau(s), including antenna co-location requirements of Section 1.1307(b)(3). | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
CKC Laboratories, Inc.
|
||||
1 | Name |
S******** B******
|
||||
1 | Telephone Number |
209-9******** Extension:
|
||||
1 | Fax Number |
866-7********
|
||||
1 |
r******@ckc.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 22H | 869 | 894 | 120 | Amp | F8W | ||||||||||||||||||||||||||||||||||
1 | 2 | 22H | 869 | 894 | 120 | Amp | F9W | ||||||||||||||||||||||||||||||||||
1 | 3 | 22H | 869 | 894 | 120 | Amp | DXW | ||||||||||||||||||||||||||||||||||
1 | 4 | 22H | 869 | 894 | 120 | Amp | GXW | ||||||||||||||||||||||||||||||||||
1 | 5 | 22H | 869 | 894 | 120 | Amp | G7W | ||||||||||||||||||||||||||||||||||
1 | 6 | 22H | 869 | 894 | 120 | Amp | F1D |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC