Radio Frequency Systems 48960 Bi-Directional Booster User Manual 602100023500rA

Radio Frequency Systems Inc Bi-Directional Booster 602100023500rA

Manual

         Bi-Directional Amplifier System     Part Numbers 48960          Operation and Installation Manual              200 Pond View Drive  Meriden, CT 06450 U.S.A. Telephone  (877) 737-9675    FAX (203) 821-3852 www.rfsworld.com
 ITEM # 602100023500     DOCUMENT TYPE: Operation and Installation Manual REV: A DOC #:  602100023 PAGE 2 OF 16      TITLE: Bi-Directional Amplifier System                                                                                      REV COMPLETED BY APPROVED BY  RELEASE DATE  ECO #  DESCRIPTION OF CHANGE A    L. ZHEN      INTIAL RELEASE                                                                                                    Proprietary Note: The information contained in this document is considered confidential material proprietary to Radio Frequency Systems and is solely for information purposes. The information shall not be used by anyone other than Radio Frequency Systems to design or construct any of the items depicted, nor shall it be disclosed, duplicated, or copied for any purpose, nor made available to any third party without the prior written consent of a Radio Frequency Systems official.
 ITEM # 602100023500     DOCUMENT TYPE: Operation and Installation Manual REV: A DOC #:  602100023 PAGE 3 OF 16      TITLE: Bi-Directional Amplifier System    TABLE OF CONTENTS   GENERAL STATEMENTS....................................................................................................................................................4 MAXIMUM PERMISSIBLE EXPOSURE LIMITS.............................................................................5 PRODUCT OVERVIEW............................................................................................................................................................6 FIELD TUNE-UP, ALIGNMENT OR CALIBRATION............................................................................................................................6 FCC ID AND CANADA CERTIFICATION NUMBERS.......................................................................................................................6 THEORY OF OPERATION................................................................................................................................................................................7 BLOCK DIAGRAM.............................................................................................................................................................................................7 ELECTRICAL SPECIFICATIONS...................................................................................................................................................................8 MECHANICAL SPECIFICATIONS................................................................................................................................................................8 ENVIRONMENTAL SPECIFICATIONS.......................................................................................................................................................8 INTERMODULATION, POWER, AND AGC............................................................................................................................................9 AGC SET POINT ADJUSTMENT.................................................................................................................................................................9 AGC AUTOMATIC SHUTDOWN..............................................................................................................................................................10 MANUAL GAIN ADJUSTMENT.................................................................................................................................................................10 AC/DC POWER................................................................................................................................................................................................10 GROUNDING AND SURGE PROTECTION.............................................................................................................................................10 INSTALLATION.................................................................................................................................................................................11 ANTENNA ISOLATION...................................................................................................................................................................................12 DIAGNOSTICS/TROUBLESHOOTING...........................................................................................................13 TEST POINT DESCRIPTIONS.......................................................................................................................................................................13 FACEPLATE.........................................................................................................................................................................................................14 COMPONENT LOCATION................................................................................................................................................15 MAINTENANCE, REPAIR AND WARRANTY.....................................................................................16 PERIODIC MAINTENANCE..........................................................................................................................................................................16 ORDERING AND RETURNING COMPONENTS...................................................................................................................................16 LIMITED WARRANTY...................................................................................................................................................................................16
 ITEM # 602100023500     DOCUMENT TYPE: Operation and Installation Manual REV: A DOC #:  602100023 PAGE 4 OF 16      TITLE: Bi-Directional Amplifier System        General Statements Thank you for selecting this RFS product. We are confident that you will find this product in proper working order and meeting all stated specifications. If not, please contact customer service immediately at 1-800-321-4700 and we will resolve the issue without hesitation. Please read this manual. A full understanding of product operation will support optimal performance and prevent accidental damage not covered by the stated warranty.   Do not operate this product without proper loads on both antenna ports. You must connect both antenna ports to an antenna or a 50-Ohm load, rated for at least 1 watt.   These products receive and amplify RF signals. As such, these products are intended for use by the licensee of the respective service and should not be used without the expressed permission of the licensee.   Do not remove the cover for service. There are no internal adjustments. Path manual gain adjustment access holes are clearly marked on the bottom. Under normal circumstances, you need not make any adjustments. For more information, see installation section.   The terminology “RX” and “TX” are being replaced by “UL” for uplink and “DL” for downlink respectively. The 48900 series bi-directional amplifiers/ repeaters/signal boosters are designed and optimized for low cost, high reliability, and ease of use.  This manual provides information on the proper operation and care; however, Radio Frequency Systems can provide the total package of components and hardware for any type of repeater installation.  See our catalog for the full line of antennas, coaxial cables, and accessories at www.rfsworld.com.  To achieve the best possible coverage, contact RFS Applications Engineering at 1-800-659-1880 for technical assistance and/or design of the distribution network. Ground KitWall/RoofFeedthrus1/2" or 7/8"Coaxial cableSurgeAssestorJumpersBase ServiceDonorAntennaIn-band orCrossbandCombinersMBC-2-1ABCDistribution Network 800-2500 MHz210261/2" Plenum Coax1/2" Plenum RadiaflexSplitters, 2, 3 or 4 wayCouplers, 6, 10, 15 or 20 dBIn buildingAntennas  For distribution network design assistance, contact RFS Applications Engineering at 1-800-659-1880.
 ITEM # 602100023500     DOCUMENT TYPE: Operation and Installation Manual REV: A DOC #:  602100023 PAGE 5 OF 16      TITLE: Bi-Directional Amplifier System    Maximum Permissible Exposure Limits  THIS PRODUCT IS CATEGORICALLY EXCLUDED FROM ROUTINE ENVIRONMENTAL EVALUATION ACCORDING TO CFR 47, SECTION 1.1037.    Signal repeaters like the 48960 bi-directional amplifier generate radio signals and thereby give rise to electromagnetic fields. The installer is expected to have a complete understanding of CFR Title 47, Sections 1.1307 and 1.1310. A brief discussion follows but is not intended to be a substitute. Additional information can also be obtained from OET Bulletin 65.   Antenna installation should be performed by qualified technicians only.   Installation instructions are not optional and are for the purpose of satisfying FCC RF Exposure Compliance.   All antennas (donor and service) are to be fixed-mounted and physically secured to one location.   Non building-mounted donor antennas must be greater than 10 meters above ground.   Maximum gain for the donor antenna is 28 dB.   Maximum gain for service area antenna(s) is 11 dB + network losses.    Minimum separation to any body part of any person is 25cm.  There are two types of antennas attached to this unit. The donor antenna is typically roof mounted and the service antenna is usually mounted in a publicly accessible area. Both antennas should be fixed mounted. Installation considerations for both of these will be discussed separately.   Donor antennas receive the base site TX signals and transmit the mobile TX signals back to the base site (uplink paths). These are typically mounted on rooftops or tower structures. The maximum output power of the uplink path is less then 80 mW (+19dBm). Section 1.307(b)(1) excludes from routine environmental evaluation, facilities, operations and transmitters that, according to Table 1 (titled "Cellular Radiotelephone Service"), are less than 1000W ERP for building mounted antennas and less than 1000W and greater than 10 meters above ground for non building-mounted antennas. As such, with maximum power from the uplink path at 80  mW (+19dBm) and a maximum antenna gain of 28 dB, the donor antenna installation will not exceed 1000 Watts  (+60 dBm) and is categorically excluded. However, according to Section 1.1307 (b)(1), the appropriate exposure limits of 1.1310 are applicable to all facilities, operations, and transmitters. Therefore, the MPE (Maximum Permissible Exposure) of Section 1.1310 applies to the donor antenna installation. OET Bulletin 65 provides methods of calculating power density based upon the ERP and distance. It would be impossible to cover every possible configuration in this manual. Likewise, it would be unreasonable to dictate the exact parameters of every installation; therefore, it is the responsibility of the qualified technician to know and ensure that Sections 1.1307 and 1.1310 of CFR Title 47 are being met.
 ITEM # 602100023500     DOCUMENT TYPE: Operation and Installation Manual REV: A DOC #:  602100023 PAGE 6 OF 16      TITLE: Bi-Directional Amplifier System    Service antennas are also fixed mounted and covered by the same MPE considerations as the donor antenna. However, this assumes that the area is always general population/uncontrolled and that the minimum distance in most installations will be less than 3 feet. According to Table 1(B) of Section 1.1310, the power density at 894 MHz is 0.596 mW/cm2. The maximum output power in the 48960 downlink (base to service area) is less then +19 dBm (80 mW). Assuming no feeder cable loss and a service area antenna gain of 11 dB, a safe minimum separation of 10 inches (25 cm) is required to stay within the MPE. 1.05 x 1000 mW/3.14 x 252 = 1050/1962.5 =0.535 mW/cm2 Therefore, the service area antenna should be mounted such that no body part of any person may come closer than 10 inches (or 25 cm). The service area antenna gain is 11 dB in the example above, but may be increased to make up for cable and/or splitter or tap losses. For example, if a 2-way splitter is used to provide for two antennas in different parts of the service area, then the antenna gain may be increased to 14 dB to make up for the loss of the splitter 3.6 dB. The maximum service area antenna gain for any specific location can be calculated as follows:  11 dB+ accumulated losses to the antenna. Product Overview Field Tune-up, Alignment or Calibration There is no field tune-up or calibration necessary for the 48960 bi-directional amplifier. These units are aligned and calibrated at the time of manufacture and are designed to retain calibration throughout the life of the product. Manual gain adjustment is provided to optimize the installation and discussed in Section 10. FCC ID and Canada Certification Numbers The listed models have been tested and granted certification by the FCC in accordance with CFR Title 47, Part 90 and by the DOC in accordance with RS 131, Issue 131. The FCC identification number for each particular model appears on a label on the faceplate of the unit. Applicable FCC identification and Canadian ISC numbers are as shown:  FCC ID  Canada IWD48960  1634B-48960
 ITEM # 602100023500     DOCUMENT TYPE: Operation and Installation Manual REV: A DOC #:  602100023 PAGE 7 OF 16      TITLE: Bi-Directional Amplifier System     Theory of Operation The 48960 BDA is designed to enhance radio communication in buildings, basements, tunnels and other RF shielded environments. The 48960 is a dual band BDA that will amplify both the 800 and 900 SMR as listed in the electrical specifications These units work by receiving and amplifying the base TX signals via a donor antenna directed at the desired base site. This RF path is called the downlink. The amplified base TX signal is re-radiated via antenna(s) or radiating cable into the Service Area. Subscriber mobile RF signals are received by the same service area radiating elements and amplified in the uplink RF path to be radiated back to the base via the donor antenna. The uplink and downlink amplifiers are broadband to accommodate all the channels in the passband. Differentiation is provided by the duplexing filters. These determine the basic pass band and prevent oscillation between the uplink and downlink by attenuating the opposing link frequencies. Both the downlink and uplink gain paths have Manual and Automatic Gain Control (AGC) to prevent an overdrive condition. The AGC set point is factory set so that the output of the link will not exceed FCC limits for spurious emissions (-13 dBm). Further discussion is provided in page 10. The control board distributes DC power to the amplifier modules and monitors each module for any fault conditions. LED indicators provide visual diagnostics; two Green LEDs indicate AC power (one each for the uplink and downlink RF board), a single Red LED for summary fault indication, yellow AGC LEDs indicate overdrive in the respectively link.  A relay terminal provides connection to a NC / NO relay for remote notification for any fault condition and a remote shut down feature.   Block Diagram
 ITEM # 602100023500     DOCUMENT TYPE: Operation and Installation Manual REV: A DOC #:  602100023 PAGE 8 OF 16      TITLE: Bi-Directional Amplifier System    Electrical Specifications     Downlink  Uplink 48960    Freq, MHz  851-869  806-824               Freq, MHz  935-941  896-902 Gain**  65 dB  65dB Gain Flatness, typical**  ±2.0 dB  ±2.0 dB Manual Attenuator Range  >20 dB  >20 dB Output Limiter Range, Automatic*  >20 dB  >20 dB Noise Figure, typical**  5.0 dB  5.0 dB Composite Power, typical*  +19 dBm  +19 dBm Impedance  50 Ohms  50 Ohms VSWR, input  2.0  2.0 Propagation Delay, worst case at band edge  <0.5 microsecond  <0.5 microsecond Power, 120/220 Auto Ranging, IEC-320 Socket  110 VAC@ .2 A   20dB band width, typical  26Mhz for 851-869 12Mhz for 935-941  26Mhz for 806-824 12Mhz for 896-902 *AGC circuitry monitors the output power and reduces the gain to prevent overdrive and oscillation. **No attenuation and at room temperature. Mechanical Specifications  Connectors, RF  N Female Weight  40 lbs  Size, L x W x D  15.78 x 13.75 x 6.1 Inches  Diagnostics  Power, AGC Overdrive, and Fault LEDs  Environmental Specifications  Operating Temperature, ambient  -10 to +45 °C Maximum humidity  95% RH (non condensing) Environmental Rating  Similar to NEMA 3R
 ITEM # 602100023500     DOCUMENT TYPE: Operation and Installation Manual REV: A DOC #:  602100023 PAGE 9 OF 16      TITLE: Bi-Directional Amplifier System     Intermodulation, Power, and AGC FCC requires that spurious emissions be less than {43+ 10 Log 10 (Power Out Watts)} dB below the carrier Power Out (dB) level. This is always equivalent to -13 dBm. The primary contributor to spurious emissions is multiple signal intermodulation. As multiple signals are amplified, they generate intermodulation products (IM). The level of IM is a factor of the amplifiers linearity or 3rd Order Intercept Point (IP3), and the number and power of signals being amplified (Pout).  IM = 3xPout - 2xIP3 The 48900 signal boosters use a combination of low distortion amplifiers and automatic gain control (AGC) to achieve maximum output while automatically limiting spurious intermodulation levels to -13 dBm. A detector on the output of the amplifier provides a DC voltage proportional to the output power. This voltage is compared to a factory setting. As long as this voltage is less than the setting, no action is required. However, when the combination of signal level and or number of signals causes the composite power to exceed the safe level, the AGC's comparator generates a DC voltage to a pin diode attenuator that increases attenuation in proportion to the level of the DC voltage. The attenuation reduces the output power until the detector voltage is at a safe level again. If the number or power of the signals is reduced, the DC offset voltage will reduce the level of attenuation. In typical operation, the AGC is only active when needed to prevent overdrive. If the AGC is constantly activating, RFS suggests that you reduce the gain via the manual attenuator and verify that an oscillation between the base and service antenna systems does not exist. AGC Set Point Adjustment   A small hole (close to the RF connectors) in the top of the amplifier enclosure (DL and UL respectively) provides access to the AGC set point.  A potentiometer adjustment tool can be used to increase the set point for approximately 5 dBm higher output power.  Remove power and turn the pot clockwise slowly until the stop is reached. This will increase the set point but retain the AGC to protect the FCC certification and the BDA itself from damage due to runaway oscillation. TABLE 1: TYPICAL OUTPUT POWER PER SIGNAL   Table 1 lists the typical output power per signal, which can be expected from the 48900 for a given number of active signals operating at equal input levels. For a donor site that has 8 signals, the power per signal would be +7 dBm, assuming the incoming signal is sufficient so that that level will be achieved. Output power is never greater then input power + gain of the BDA. CAUTION Remove power to the BDA.  Increasing the set point of the AGC may result in interference.  Use only a non-conductive potentiometer tool to prevent damage to surrounding circuitry. iDEN signals  dBm 1  19.0 2  16.0 4  12.0 8  9.0 16  6.0
 ITEM # 602100023500     DOCUMENT TYPE: Operation and Installation Manual REV: A DOC #:  602100023 PAGE 10 OF 16      TITLE: Bi-Directional Amplifier System              AGC Automatic Shutdown If the attenuation capability of the AGC circuitry is exceeded, power to the power amplifier stage is shut down to prevent harmful distortion and potential damage to the 48960. Shutdown will occur if the AGC control limit is exceeded for about 1/2 second. Power is then cut for two seconds. After this timeout, power is brought back on-line. If the overload condition is still present, shutdown will again occur in approximately one second. This cycle will be repeated until the condition is removed. Conditions that can cause AGC to shut down include the presence of one or more very strong channels, a strong in-band noise source, or amplifier oscillation due to inadequate antenna isolation. Manual Gain Adjustment The independent manual attenuators, RX for uplink and TX for downlink, are accessible from the faceplate on the bottom of the unit. These are pre-set in the fully counterclockwise position, at minimum attenuation, maximum gain. Manual attenuation is separate from the AGC attenuators. At the full clockwise position, >20 dB of attenuation will be introduced in the respective gain path. Calibration is provided in dBs of attenuation. Resultant gain is full gain (63-67 dB) – the number indicated by the attenuator setting. To lock the setting on either attenuator, a M3 screw is included with this manual.  Insert and tighten the screw in the spacer on the attenuator (inside unit). AC/DC Power AC power is supplied through a standard 3-wire male plug connected through a standard IEC-320 plug. Connect this plug to any standard 3-wire 120-240 VAC outlet. A 5x20 mm, .315 amp 250VAC slow-blow fuse is used. A 2 amp, 32 VDC, fast-acting fuse is located on the side of each amplifier to protect the DC voltage path. (See “Component Location”)  ⌦ Always unplug the amplifier before servicing the interior.  ⌦ Never insert conductive objects into any opening.  ⌦ Never remove or probe under the plastic safety shield covering the AC terminals of the 24 VDC power supply. ⌦ Always use a standard 3-wire electrical outlet, with safety ground, for connection to AC power.  Grounding and Surge Protection The unit is case grounded through the three-prong plug. The donor antenna feeder cable should have a cable ground attached to it, along with an inline surge arrestor between the donor antenna and the 48960. The distribution network need not be grounded in building installations. However, the distribution network in tunnels, subways or outdoor installations should also include a cable ground and inline surge arrestor at or near the “service” port.  DANGER Always remove power before checking or changing fuses. 120VAC can be lethal.
 ITEM # 602100023500     DOCUMENT TYPE: Operation and Installation Manual REV: A DOC #:  602100023 PAGE 11 OF 16      TITLE: Bi-Directional Amplifier System   Installation   Choose an optimal location.  The choice of a location for the 48960 to reside is often dictated by circumstance. These units can withstand a wide range of environmental conditions, but a cooler environment will increase the life of the product. The 48960 is not intended for outdoor operation without environmental protection. A central location to minimize cable loss in any leg of the distribution network is ideal.  In addition, a stacking room near a riser for easy access to the roof and other floors will facilitate the installation.   Mount repeater upright, with the connections toward the floor. Ensure there is sufficient space above and below the unit to allow airflow through the heat sink. Check to make sure the AC power cord can reach the power source. Also, provide adequate bending radii for the coaxial cables.   Install directional donor antenna and align with desired base site. A directional yagi, corner reflector or panel antenna is highly recommended. The 48960 has filtering to prevent out-of-band signals from causing interference; however, it is best to reduce the potential for interference by directing the mobile signals only towards the desired base site.   Check the incoming donor signals. A spectrum analyzer is recommended to confirm that the desired base TX (DL) signals are strong enough to achieve the desired output power.  Also check for strong undesired signals in the pass band or on the pass band edge; these may cause overdrive and AGC gain reduction. The donor antenna may need to be realigned to optimize the signal levels.   Install service area antenna(s). Determining the location and type of service area antennas is part of the distribution system design. Generally, it is desired to minimize the amount of coax that has to be installed. However, in buildings with extensive obstructions, it may be necessary to install several service area antennas. For assistance with antenna placement, contact RFS Applications Engineering.   Connect service antenna(s) to "Service" port via a 50-ohm coaxial cable. Multiple service area antennas/radiating cable runs may be connected to the 48960. Splitters and taps may be used to accommodate unique distribution systems. Size and type of cable are a matter of choice. Typically, 1/2" Flexwell foam coax is used, plenum rated for inside buildings and work areas. However, 7/8" cable may be used to reduce longitudinal loss. Superflex cables are easier to install but have higher longitudinal loss. Fiber optic distribution systems may be used with the 48960. Observe the input power requirements of the manufacturer. RFS has all the components needed to complete even the largest installations. Visit our website at: www.rfsworld.com, or call us. WARNING Do not connect AC power until antennas have been connected to both the base and service area ports. IMPORTANT Observe Maximum Permissible Exposure cautions when determining the type and location of all antennas.
 ITEM # 602100023500     DOCUMENT TYPE: Operation and Installation Manual REV: A DOC #:  602100023 PAGE 12 OF 16      TITLE: Bi-Directional Amplifier System      Connect the service area antennas to the “Service” port.   Connect the donor antenna cable to "Base" port.   Connect AC power to the unit and observe power and fault LEDs Ideally, a spectrum analyzer should be used to confirm the DL signal at the service port. However, the 48960 has diagnostics to assist with optimization as discussed below.  Confirm the green “PWR” LEDs are lit in both the uplink (UL) and downlink (DL) and that the red “Fault” LED is not lit. If the yellow DL AGC LED is lit then it is suggested to reduce the gain in the DL via the manual attenuator.  Turn the adjustment clockwise to reduce gain until the AGC LED goes out.  Then adjust the UL gain to the same setting to minimize noise generated in the uplink and balance the links. If both LEDs are lit then there is likely an oscillation between the antennas – see “Antenna Isolation”.  Also read the section on “Intermodulation, Power, and AGC”   Test the coverage. Ideally, this test should include multiple subscribers in various locations of the service area. It should also include one subscriber in close proximity to the 48960.  This test will check to ensure that a nearby subscriber does not overdrive the uplink and reduce coverage for the other users. If the UL AGC LED lights during the system test it most likely indicates that there is a hot spot in the service area, where the subscriber signal is overdriving the uplink.  It is best to minimize this effect by relocating the nearest service antenna or adding an attenuator pad to reduce the UL signal strength. In some cases, a coupler may be needed to add a low power antenna in specific locations.  For this reason it is best to have extra antennas, splitters, couplers and coax.  Antenna Isolation Isolation between the donor (base) antenna and service area antenna should be 20 dB greater than the gain of the repeater amplifier.  If the isolation is less than the amplifier gain, then positive feedback sufficient for oscillation is present in the system. Such oscillations will overdrive one or both amplifier links and continuously activate the AGC auto-shutdown circuitry.  Antenna isolation is usually not a problem for in-building installations. Isolation is improved by using a directive donor antenna and facing it away from the distribution or service antenna(s). Decoupling is achieved by spatially separating the antennas vertically and/or horizontally. Other factors influencing isolation include multi-path reflections, structures, other antennas, passing vehicles, personnel proximity, etc.  It is always best to measure the isolation before connecting the repeater. The most direct way to measure the isolation is to inject a known signal into one antenna, and measure the coupled signal at the other antenna. This should be done across the applicable bandwidth to account for the frequency dependency of standing waves.
 ITEM # 602100023500     DOCUMENT TYPE: Operation and Installation Manual REV: A DOC #:  602100023 PAGE 13 OF 16      TITLE: Bi-Directional Amplifier System     Oscillation may also take place between the 800 SMR band and a system for amplifying the 800 Cellular band.  Contact RFS applications engineering for assistance. Diagnostics/Troubleshooting  Test Point Descriptions •  Green power LED indicates DC voltage is applied to the respective link. •  Yellow AGC LEDs indicate AGC is active in the respective link •  Red Fault LED indicates that a under or over current condition exists or that the AGC Shut Down circuitry has been activated. •  Relay NC (normally closed), C (common), NO (normally open) is a summary fault relay that changes state whenever the fault LED is lit or when the power fails.  This relay is rated for up to 48 VDC at 2 Amps. •  Shut Down pin will cause the 48960 to shut down when it is connected to GND (ground).  Current draw is insignificant. Problem:  Solution: Green power LEDs on faceplate not lit. Check power source and the AC fuse located in the EIC plug.  Check the DC fuse located inside the 48960 on the side of the individual amplifier modules.  Check connections to the internal power supply. Red LED on faceplate is lit. First, try to cycle the power then watch the AGC LEDS to make sure the unit is not in AGC shut down.   If the Fault LED is cycling then an overdrive condition exists.  See AGC Automatic Shutdown section. Green power LED lit and no red Fault LED on faceplate; unit does not appear to be working. Check for a break in the donor or distribution networks. Also, check to ensure the donor signal is still available to the repeater. An obstruction could be blocking the donor base site or the donor antenna could have become misaligned. Then, check the integrity of the distribution network. Coaxial cable has a minimum bending radius, if that is exceeded the inner conductor may crack or break causing excessive reflections to the signals. Yellow AGC LED is lit. AGC LEDs indicate an overdrive condition in the respective link. Reduce the respective link gain via the Gain Adjust until the LED goes out. Generally, the opposing link gain should be adjusted to approximately the same setting. If the LED does not go out, then the input signal is too strong.  Sweep the input to the respective link to identify the source of overdrive.  If the signal is not a desired signal then external filtering should be considered to attenuate.  If the signal(s) are all desired then attenuate the base port with a 10 dB in-line attenuation pad.       IMPORTANT The 48960 BDAs are not designed for field repair.  The outer cover may be removed for some troubleshooting but under no circumstances should the covers be removed from the internal amplifier modules as this will void the warranty.
 ITEM # 602100023500     DOCUMENT TYPE: Operation and Installation Manual REV: A DOC #:  602100023 PAGE 14 OF 16      TITLE: Bi-Directional Amplifier System      Faceplate  DL UL
 ITEM # 602100023500     DOCUMENT TYPE: Operation and Installation Manual REV: A DOC #:  602100023 PAGE 15 OF 16      TITLE: Bi-Directional Amplifier System        Component Location  Only the power supply is field replaceable part number 31500012900  AGC Adjust Downlink Uplink Location of locking spacer
 ITEM # 602100023500     DOCUMENT TYPE: Operation and Installation Manual REV: A DOC #:  602100023 PAGE 16 OF 16      TITLE: Bi-Directional Amplifier System     Maintenance, Repair and Warranty Periodic Maintenance No periodic maintenance is required for the 48960. As long as the units are kept away from extreme temperatures and moisture, they should provide long-term, carefree operation. However, periodically check all RF connections for corrosion, strain damage, and proper tightness. Also, periodically check the AC power connections for integrity. Ordering and Returning Components For technical assistance, call Radio Frequency Systems Applications Engineering at 1-800-659-1880. For returns, repairs, and ordering, contact Radio Frequency Systems Customer Service at 1-800-321-4700 for a Return Authorization Number. Be prepared to provide the model number, serial number of the unit, as well as a description of the symptoms of the problem. Send components or units freight pre-paid with the Return Authorization Number on the outside of the package to: Radio Frequency Systems 175 Corporate Court Meriden, CT 06450  Limited Warranty The Seller warrants that, at the time of shipment, the products manufactured by the Seller are free from defects in material and workmanship. The Seller's obligation under this warranty is limited to replacement or repair of such products within one year from the date of shipment. No material is accepted for replacement or repair without written authority of the Seller. Replacement or repair is made only after an examination at the Seller's facility shows defective material or workmanship at the time of manufacture. All shipping charges on the returned material must be prepaid by the Buyer. The seller is in no event liable for consequential damages, installation costs or other costs of any nature as a result of the use of the products manufactured by the Seller, whether used in accordance with instructions or not. The Seller is not liable for replacement of any product damaged by lightning. This warranty is in lieu of all others, either expressed or implied. No representative is authorized to assume for the Seller any other liability in connection with the Seller's products.

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