Bird Technologies Group 5PI618350 SIGNAL BOOSTER II User Manual

Bird Technologies Group SIGNAL BOOSTER II

USERS MANUAL

Part No.61-83B-50-XXX-XX UserMan page 1 of 25Installation and Operation Manual for the Two-Way Signal Booster SystemModel Number 61-83B-50-XXX-XXFirst Printing: July 20057-9410-1.2Version Number Version Date1 07/20/051.1 09/19/051.2 10/21/05Copyright © 2005 TX RX Systems Inc.
61-83B-50-XXX-XX UserMan page 2 of 25NOTEWARNINGWarrantyThis warranty applies for one year from shipping date.TX RX Systems Inc. warrants its products to be free from defect in material and workman-ship at the time of shipment. Our obligation under warranty is limited to replacement orrepair, at our option, of any such products that shall have been defective at the time ofmanufacture.TX RX Systems Inc. reserves the right to replace with merchandise of equal performancealthough not identical in every way to that originally sold.TX RX Systems Inc. is not liable for damage caused by lightning or other natural disasters.No product will be accepted for repair or replacement without our prior written approval.The purchaser must prepay all shipping charges on returned products. TX RX SystemsInc. shall in no event be liable for consequential damages, installation costs or expense ofany nature resulting from the purchase or use of products, whether or not they are used inaccordance with instructions. This warranty is in lieu of all other warranties, either ex-pressed or implied, including any implied warranty or merchantability of fitness. No repre-sentative is authorized to assume for TX RX Systems Inc. any other liability or warrantythan set forth above in connection with our products or services.Terms and Conditions of SalePRICES AND TERMS: Prices are FOB seller’s plant in Angola, NY domestic packagingonly, and are subject to change without notice. Federal, State and local sales or excisetaxes are not included in prices. When Net 30 terms are applicable, payment is duewithin 30 days of invoice date. All orders are subject to a $100.00 net minimum.QUOTATIONS: Only written quotations are valid.ACCEPTANCE OF ORDERS: Acceptance of orders is valid only when so acknowledgedin writing by the seller.SHIPPING: Unless otherwise agreed at the time the order is placed, seller reserves theright to make partial shipments for which payment shall be made in accordance withseller’s stated terms. Shipments are made with transportation charges collect unlessotherwise specified by the buyer. Seller’s best judgement will be used in routing, exceptthat buyer’s routing is used where practicable. The seller is not responsible for selectionof most economical or timeliest routing.CLAIMS: All claims for damage or loss in transit must be made promptly by the buyeragainst the carrier. All claims for shortages must be made within 30 days after date ofshipment of material from the seller’s plant.SPECIFICATION CHANGES OR MODIFICATIONS: All designs and specifications ofseller’s products are subject to change without notice provided the changes or modifi-cations do not affect performance.RETURN MATERIAL: Product or material may be returned for credit only after writtenauthorization from the seller, as to which seller shall have sole discretion. In the eventof such authorization, credit given shall not exceed 80 percent of the original purchase.In no case will Seller authorize return of material more than 90 days after shipment fromSeller’s plant. Credit for returned material is issued by the Seller only to the originalpurchaser.ORDER CANCELLATION OR ALTERATION: Cancellation or alteration of acknowledgedorders by the buyer will be accepted only on terms that protect the seller against loss.NON WARRANTY REPAIRS AND RETURN WORK: Consult seller’s plant for pricing.Buyer must prepay all transportation charges to seller’s plant. Standard shipping policyset forth above shall apply with respect to return shipment from TX RX Systems Inc. tobuyer.DisclaimerProduct part numbering in photographs and drawings is accurate at time of printing.Part number labels on TX RX products supercede part numbers given within this manual.Information is subject to change without notice.SymbolsCommonly UsedCAUTION orATTENTIONHigh VoltageUse SafetyGlassesESDElectrostaticDischargeHot SurfaceElectrical ShockHazardImportantInformation
61-83B-50-XXX-XX UserMan page 3 of 25To satisfy FCC RF exposure requirements for transmittingdevices, a separation distance of 104 Centimeters or moreshould be maintained between the UPLINK antenna of thisdevice and persons during device operation. To satisfy FCCRF exposure requirements for transmitting devices, a sepa-ration distance of 33 Centimeters or more should be main-tained between the DOWNLINK antenna of this device andpersons during device operation. To ensure compliance,operations at closer than these distances is not recom-mended.The antenna used for this transmitter must not be co-locatedin conjunction with any other antenna or transmitter.WARNINGFor Class A Unintentional RadiatorsThis equipment has been tested and found to comply with the limits for a Class A digital device, pursuant topart 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful inter-ference when the equipment is operated in a commercial environment. This equipment generates, uses,and can radiate radio frequency energy and, if not installed and used in accordance with the instructionmanual, may cause harmful interference to radio communications. Operation of this equipment in a resi-dential area is likely to cause harmful interference in which case the user will be required to correct theinterference at his own expense.Changes or modifications not expressly approved by TXRX System Inc. could void the user’s authority to operatethe equipment.WARNINGThis device complies with Part 15 of the FCC Rules. Operation is subject to thefollowing two conditions: (1) this device may not cause harmful interference and(2) this device must accept any interference received, including interferencethat may cause undesired operation.
61-83B-50-XXX-XX UserMan page 4 of 25Antenna System InstallationThe antenna or signal distribution system consists of two branches. An uplinkbranch typically uses an outdoor mounted, unidirectional gain antenna suchas a yagi and a downlink signal radiating system consisting of a network ofzero-gain whip antennas or lengths of radiating cable usually mounted insideof the structure.Even though the antenna system may not be supplied or installed by TX RXSystems. The following points need to be observed because both the safetyof the user and proper system performance depend on them.1) Antenna system installation should only be performed by qualified techni-cal personnel.2) The following instructions for your safety describe antenna installationguidelines based on FCC Maximum RF Exposure Compliance require-ments.3) The uplink antenna is usually mounted outside and exchanges signalswith the repeater base station or donor site. It is typically mounted perma-nently-attached to the building wall or roof. The gain of this antenna shouldNOT exceed 10 dB. Only qualified personnel should have access to theantenna and under normal operating conditions, no one should be able totouch or approach it within 104 Centimeters (41 inches).4) The downlink or in-building signal distribution system is connected to thedownlink booster port using coaxial cable. The distribution system mayuse radiating coaxial cable or a network 1/4 wave whip antennas whosegain does not exceed 0 dB for any radiator. These antennas should beinstalled so that the user cannot approach any closer than 33 Centimeters(13 inches) from the antenna.
61-83B-50-XXX-XX UserMan page 5 of 25 Manual 7-9410-1.2 10/21/05 Table of ContentsTable of ContentsGeneral Description ..............................................................................................7Unpacking ....................................................................................................... 7Installation ....................................................................................................... 7 Location ....................................................................................................... 7 Mounting ....................................................................................................... 8Connections ....................................................................................................... 8 AC Line ....................................................................................................... 10 Backup DC Power.................................................................................................. 10 Alarm Terminals (Form-C Contacts) ......................................................................10 RF Connections.....................................................................................................11 Pre-RF Connection Testing ..................................................................................11 Test Equipment...................................................................................................... 11 Antenna Isolation................................................................................................... 11 Procedure for Measuring Antenna Isolation .......................................................... 11 Increase isolation or decrease gain?..................................................................... 12Normal Operation ..................................................................................................12 LED Status Indicators............................................................................................ 13 Front Panel LED’s ................................................................................................13 Module LED’s ...................................................................................................... 13 OLC Light Bars ....................................................................................................13 Front Panel Controls & the LCD Display................................................................13 LCD Screen ....................................................................................................... 15 Configuration Settings ...........................................................................................15 Restore Original Configuration ...........................................................................15 Calibrate Currents ..............................................................................................15 Set Gain ....................................................................................................... 15 Set Output Level .................................................................................................15 Change Gain Configuration ................................................................................ 15 Detailed Status Screens ........................................................................................ 16 Amplifiers ....................................................................................................... 16 Power Supply...................................................................................................... 16 OLC ....................................................................................................... 16 OLC Datalog....................................................................................................... 16Alarms ....................................................................................................... 17 LED Indicators ....................................................................................................... 17 Form-C contacts .................................................................................................... 17Performance Survey ..............................................................................................18Maintenance and Repair .......................................................................................18 Power Amplifier Replacement................................................................................ 19 Module Replacement.............................................................................................20 Display/User Interface Replacement .....................................................................21 Power Supply Replacement................................................................................... 22 Duplexer / Filter Replacement ............................................................................... 22 Card Cage Replacement ....................................................................................... 22 Tuning Instructions.................................................................................................22 Test Equipment.................................................................................................... 23 Preselector Tuning...............................................................................................23Recommended Spares.......................................................................................... 23
61-83B-50-XXX-XX UserMan page 6 of 25 Manual 7-9410-1.2 10/21/05 Table of ContentsFigures and TablesFigure 1 Cabinet mounting hole layout 8Figure 2 Front internal cabinet view 9Figure 3 AC line entry 10Figure 4 Connecting the battery backup voltage 10Figure 5 Measuring antenna isolation 12Figure 6 Boot-up display 12Figure 7 Operational status display 13 Figure 8 Menu System 14Figure 9 Measuring Booster Gain 17Figure 10 Performance Survey 18Figure 11 Removing the Power Amplifier (1 of 3) 19Figure 12 Removing the Power Amplifier (2 of 3) 20Figure 13 Removing the Power Amplifier (3 of 3) 20Figure 14 Disconnecting Display/User Interface 21Figure 15 Preselector Tuning 23Table 1 Model Number Designations 7Specifications 24Celsius to Fahrenheit Conversions 25
Manual 7-9410-1.2 Page 7TX RX Systems Inc. 10/21/0561-83B-50-XXX-XX UserMan page 7 of 25GENERAL DESCRIPTIONSignal boosters extend radio coverage into areaswhere abrupt propagation losses prevent reliablecommunication. No frequency translation (conver-sion) occurs with this device. Signal Booster II (SBII) is a broadband, bi-directional signal boosteravailable in a variety of configurations as shown inTable 1. The product model number is used todescribe each configuration available. This manualdetails the installation and operation of the 61-83B-50-XXX-XX series of boosters.The system can be ordered in one of three maxi-mum gain configurations including Full Gain (+80dB gain max), Medium Gain (+60 dB gain max),and Low Gain (+45 dB max gain). The maximumgain of the system is determined by the exact typeof cards plugged into the low and mid level slots asshown in the block diagrams at the back of thismanual. The maximum gain of the uplink or down-link branch is adjustable and can be setup inde-pendently. In addition, the gain of each branch canbe reduced up to 30 dB in 0.5 dB increments viasoftware interface.The bandwidth of the system is determined by thepassband of the input/output filtering. The filterspassband is determined by its physical construc-tion. Three cabinet styles are available. The G1suffix denotes a NEMA-4 style cabinet which issuitable for indoor or outdoor use. The G2 suffixdenotes a stainless steel NEMA-4X style cabinetsuitable for corrosive environments such as salt airand the RM suffix a rack mount version which isintended for indoor mounting only.UNPACKINGIt is important to report any visible damage to thecarrier immediately. It is the customer's responsi-bility to file damage claims with the carrier within ashort period of time after delivery (1 to 5 days).Care should be taken when removing the unit fromthe packing box to avoid damage to external heat-sink fins. Use caution because the heatsink finscan have somewhat sharp corners. Signal BoosterII (SB II) weighs about 85 lbs. so use enough peo-ple when lifting the unit.INSTALLATIONThe following sections discuss general consider-ations for installing the booster. All work should beperformed by qualified personnel in accordancewith local codes.LocationThe layout of the signal distribution system will bethe prime factor in determining the mounting loca-tion of Signal Booster II. However, safety and ser-viceability are also key considerations. The unitshould be located where it cannot be tamperedwith by the general public, yet is easily accessibleto service personnel. Also consider the weight ofthe unit and the possibility for injury if the unitshould become detached from its mounting sur-faces for any reason.Although signal boosters can operate for yearswithout being attended to, the unit will need to beaccessed by service personnel with troubleshoot-ing equipment, such as digital multimeters and61 - 83B - 50 - A12 - G1(Example)*FAMILY FREQUENCYBANDMODEL COARSEGAINBANDWIDTH ENCLOSURETYPE60 =61 =612 =1 Way2 Way2 Wayw/FiberInterface83B = 764 - 776794 - 80650 = SignalBooster IIA =B =C =80 dB60 dB45 dB12 = 12 MHz G1 =G2 =RM =Painted, Nema4Stainless, Nema4XRack Mount*Note: Gain of 80 dB model set to 50 dB at factory. Please measure antenna isolation before resetting.Table 1: Model number designations. Model 61-83B-50-A12-G1 shown as example.GAI
Manual 7-9410-1.2 Page 8TX RX Systems Inc. 10/21/0561-83B-50-XXX-XX UserMan page 8 of 25spectrum analyzer or a laptop computer from timeto time. The location of the power source will alsohave a bearing on the mounting location. SB IIuses external heat sinks and needs to be mountedwhere there can be an unobstructed air flow overthe heat sinks fins. The SB II cabinet will stay warmduring normal operation so in the interest of equip-ment longevity, avoid locations that carry hotexhaust air or are continually hot.MountingFigure 1 shows mounting hole dimensions andlayout for the cabinet. Mount the cabinet using 3/8”(10 mm) diameter steel bolts (not supplied). Werecommend flat washers on both ends and a lockwasher under the nut. Nut and bolt mounting ispreferred to the use of lag bolts. Use backer blockswhere necessary to spread the force over a largersurface area. In areas of known seismic activity,additional devices such as tether lines may be nec-essary.Because TX RX Systems, Inc. cannot anticipate allthe possible mounting locations and structuretypes where these devices will be located, we rec-ommend consulting local building inspectors, engi-neering consultants or architects for advice on howto properly mount objects of this type, size andweight in your particular situation. It is the cus-tomer’s responsibility to make sure these devicesare mounted safely and in compliance with localbuilding codes.CONNECTIONSAll cabling connections to the booster should bemade and checked for correctness prior to power-ing up the system.MOUNTING TABSDOORCLAMPS0.438" DIA.(12mm)0.438" DIA.(12mm)SIDE VIEW18"(457mm)21.25"(540mm)Figure 1: SB II cabinet mounting hole layout.
Manual 7-9410-1.2 Page 9TX RX Systems Inc. 10/21/0561-83B-50-XXX-XX UserMan page 9 of 25Power SupplyAC PowerSwitchBatteryBackupSwitchForm-CContactsDC BackupEntryUplink PowerDuplexerDownlink PowerAmplifierDuplexerMenuSelectButtonsUplink M/L Card(for Full Gain Model)Uplink M/L Card(for Mid Gain Model)Uplink L/L Card(for Full Gain Model)Attenuator Card(for Mid Gain Model)Attenuator Card(for Low Gain Model)UplinkPowerDistributionDownlink M/L Card(for Full Gain Model)Downlink M/L Card(for Mid Gain Model)Downlink Low Gain Card(for Low Gain System)Downlink L/L Card(for Full Gain Model)Attenuator Card(for Mid Gain Model)Attenuator Card(for Low Gain Model)DownlinkPowerDistributionControllerDownlink InUplink Out Uplink OutDownlink InAC Power EntryComm-Card(Optional)Spare(unused slot) OLC Light BarsStatus LEDs Isolator Test Po r t IsolatorTest Po r tACFilterDCFilterFigure 2: Front view of SB II. Model 61-83B-50-A12-G1 two-way signal booster shown as an example.
Manual 7-9410-1.2 Page 10TX RX Systems Inc. 10/21/0561-83B-50-XXX-XX UserMan page 10 of 25AC LineSignal Booster II is designed to be hard-wired to110 single phase AC lines at 50 - 60 Hz (see Fig-ures 2 and 3). An AC line filter is provided for thispurpose. There is a hole provided in the cabinetbottom-wall for bringing in the AC line. Fastenquick connect plugs to each wire of the incomingAC line, then connect the ground wire and hot wireto the respective pins on the top of the AC line filterassembly. Refer to the photo shown in figure 3.The output of the AC line filter is wired into theswitch box which also contains a dual convenienceoutlet for running test equipment. Use conduit forrunning the AC line into the SBII cabinet and use#14 gauge or large conductors.Backup DC PowerSB II may be run on a DC power source that cansupply 24 to 27 volts DC at 2.5 amps (see Figures2 and 4). This source should be equipped with afast-acting 3 Amp fuse. A DC line filter is providedfor making the connection inside the unit. There isa hole provided in the cabinet bottom-wall for bring-ing in the DC supply. Fasten spade lugs to eachwire of the incoming DC and then connect to therespective pins on the DC line filter assembly.Refer to the photo shown in figure 4. Use #16 or#18 gauge wire for this connection. The power sys-tem in SB II automatically switches to this backupDC input when the AC supply fails for any reasonincluding a power outage or intentional disconnec-tion.It is not necessary that this connection be made fornormal operation on the AC line.Alarm Terminals (Form-C contacts)Two sets of contacts are provided to monitor thegeneral operating condition of SB II and areintended for connection to a supervisory system.See figure 2. One set changes state when the AC power supplyshuts down for any reason and the unit switches tooperation on the backup DC power system. Theother set of contacts changes state when any of anumber of fault conditions arises within the elec-tronics such as current drain outside of theexpected operating range in some module.Figure 3: Wiring of AC line entry.Connect incoming AC line to the input lugs of the AC line filterConnect incoming battery backup to the input screws on the DC filter Figure 4: Battery Backup connections.
Manual 7-9410-1.2 Page 11TX RX Systems Inc. 10/21/0561-83B-50-XXX-XX UserMan page 11 of 25A six-terminal strip is provided for the interface anduses screw terminals for ease of connection. Routethe alarm wires through one of the access holes inthe bottom of the box, strip about 3/16” of insula-tion from each end, loosen the screw terminal,insert and retighten. Use #20 or #22 gauge insu-lated wire. Use of these terminals is optional. SB IIalso has a number of status LEDs built-in to indi-vidual modules to indicate a fault condition.RF ConnectionsN(F) bulkhead connectors are provided on the bot-tom of the cabinet for connection to the signal dis-tribution system. Be sure that the correct branch ofthe distribution system is connected to its corre-sponding Uplink/Downlink connector or the systemwill not work properly. Using high-quality connec-tors with gold center pins is advised. Flexiblejumper cables made of high-quality coax are alsoacceptable for connecting to rigid cable sections.PRE-RF CONNECTION TESTSAntenna isolation between the uplink and downlinkbranches should be measured before connectingthe signal booster to the antenna system. This stepis necessary to insure that no conditions exist thatcould possibly damage the signal booster andshould not be skipped for even the most thoroughlydesigned system.Note: The 80 dB gain models are fac-tory preset to 50 dB gain and shouldonly be reset to a higher value afterdetermining the safe maximum gainbased on antenna isolationTest EquipmentThe following equipment is required in order to per-form the pre-installation measurements.1) Signal generator for the frequencies of interestcapable of a 0 dBm output level. Modulation isnot necessary.2) Spectrum analyzer that covers the frequenciesof interest and is capable of observing signallevels down to -100 dBm or better.3) Double shielded coaxial test cables made fromRG142, RG55 or RG223 coaxial cable.Antenna Isolation Just like the feedback squeal that can occur whenthe microphone and speaker get too close to eachother in a public address system, a signal boostercan start to self oscillate. This can occur when theisolation between the input antenna or signalsource and the output distribution system does notexceed the signal boosters gain by at least 15 dB.Oscillation will reduce the effectiveness of the sys-tem and may possibly damage the power amplifierstages.In general, if one or both antenna ports are con-nected to sections of radiating coaxial cable (lossycable) the isolation will be more than adequatebecause of the high coupling loss values that areencountered with this type of cable. When a net-work of antennas are used for the input and output,this problem is much more likely. Isolation valuesare relatively easy to measure with a spectrumanalyzer and signal generator.Procedure for Measuring Antenna Isolation1) Set the signal generator for a 0 dBm outputlevel at the center frequency of one of the signalboosters passbands (770 or 800 MHz)2) Set the spectrum analyzer for the same centerfrequency and a sweep width equal to or justslightly greater than the passband (12 MHz)chosen in step one.3) Connect the test leads of the signal generatorand the spectrum analyzer together using afemale barrel connector, see Figure 5. Observethe signal on the analyzer and adjust the inputattenuator of the spectrum analyzer for a signallevel that just reaches the 0 dBm level at the topof the graticule. 4) Referring to figure 5, connect the generator testlead to one side of the signal distribution system(external antenna) and the spectrum analyzerlead to the other (internal distribution system)and observe the signal level. The differencebetween this observed level and 0 dBm is theisolation between the sections. If the signal istoo weak to observe, the spectrum analyzer'sbandwidth may have to be narrowed and itsinput attenuation reduced. Record the isolationvalue. The isolation value measured shouldexceed the signal booster’s gain figure by atleast 15 dB.NOTE
Manual 7-9410-1.2 Page 12TX RX Systems Inc. 10/21/0561-83B-50-XXX-XX UserMan page 12 of 25It is wise to repeat the procedure listed above formeasuring antenna isolation with the signal gener-ator set to frequencies at the passbands edges inorder to see if the isolation is remaining relativelyconstant over the complete width of the passband. Repeat the isolation measurements at the otherpassband in bi-directional systems and use thelesser of the two values to determine the maximumgain setting.Increase Isolation or decrease gain?Modification of the signal distribution system isrequired to increase isolation between the up anddownlink path. This will require significant changesthat may or may not be practical from a cost orlogistical standpoint. Gain reduction may be theonly alternative but this is easy to achieve with Sig-nal Booster II. Gain for both the uplink and down-link path can be set from 50 to 80 dB. Here are thesteps to follow.1) Subtract 15 dB from the measured isolationbetween uplink and downlink branches of theantenna/signal distribution system. This is themaximum usable gain level for both the uplinkand downlink path.2) Accessing the user menu through the frontpanel, set the gain of the uplink path to the leveldetermined in step 1. A detailed explanation ofhow to negotiate the menu system is given onpage 14.3) Repeat step 2 for the downlink path.NORMAL OPERATIONPower is applied to the signal booster by turning onthe AC power switch located on the junction boxinside the cabinet, refer to figure 2. The followingstartup sequence occurs.INTERNALSIGNAL DISTRIBUTIONSYSTEMSPECTRUMANALYZEREXTERNALANTENNASIGNALGENERATORZERO LOSSREFERENCEISOLATION (dB)Figure 5: Typical test equipment interconnection for measuring antenna isolation.Figure 6: Software version is displayed brieflyduring the boot-up sequence.
Manual 7-9410-1.2 Page 13TX RX Systems Inc. 10/21/0561-83B-50-XXX-XX UserMan page 13 of 251) At turn-on, the four status LEDs on the frontpanel glow red for about 5 seconds as the resultof entering a self-check mode.2) The two green OLC light bars will be fully litalong their length for approximately 5 seconds.3) The LCD display shows the firmware revisionscreen for about 5 seconds (see Figure 6).4) After the self check is complete, the four statuslights should turn green and the light barsshould be dark unless a signal is activating OLCaction in either the uplink or downlink.If the OLC light-bar segments on both the Uplinkand Downlink display light-up and pulse on and offevery 1 to 3 seconds simultaneously, SHUT OFFTHE POWER IMMEDIATELY! The booster maybe oscillating. Disconnect the uplink and downlinkantenna connections and measure the isolationbetween the two branches to insure there is suffi-cient isolation. Reset the booster gain as needed.5) The LCD display should appear similar to Fig-ure 7 after the self check is complete.LED Status indicatorsThe SB II front panel has 4 status LEDs that glowgreen or red to indicate the general health of 4 sub-systems from a DC perspective. Additionally, theplug-in, Low-Level and Mid-Level amplifier cardshave tri-color (green-orange-red) status LEDs visi-ble when the cabinet door is open.FRONT PANEL LEDS:24V: Green indicates the 24 volt DC Power systemis operating properly.12V: Green indicates the 12 volt DC power systemis operating properly.UL PA: Green indicates that the uplink poweramplifier is drawing current within the expectedoperating range and at a safe temperature.DL PA: Green indicates that the downlink poweramplifier is drawing current within the expectedoperating range and at a safe temperature.Module LEDS;Mid-Level, Low-Level, Low Gain Module: Greenindicates current or device temperature within theexpected operating range. Orange indicates cur-rent or temperature slightly out of the expectedrange but the overall booster operation may stillappear normal. Red indicates a large departurefrom normal current or device temperature andbooster operation is likely to be affected. See page17 for more details about alarm operation.Attenuator Module: Green only indicating DCpower is applied to the card.OLC LIGHT BARSIdeally, there should be little or no light bar activity.Each light bar segment represents an average 3dB of OLC gain reduction. OLC (output level con-trol) is meant to reduce gain for transient episodesof very strong signals. However, when OLC isactive, gain is reduced for all signals being pro-cessed by that booster branch and that reductionmay compromise communications for weaker sig-nals in the booster’s passband.If more than 2 or 3 light-bar segments are lit upmore than occasionally, it is advised that the gainof that branch be reduced. See the SET GAINparagraph on page 15 for details.Front Panel Controls & the LCD DisplaySB II is software directed so control of the systemis accomplished via user interface with the controlpanel using the LCD display screen and the menuselect buttons, see figure 2. A flow chart showingall of the possible user menu selections is shown inFigure 8.WARNINGFigure 7: Normal Operational LCD Display.
Manual 7-9410-1.2 Page 14TX RX Systems Inc. 10/21/0561-83B-50-XXX-XX UserMan page 14 of 25GAIN## dB## dBOUT LVL## dBm## dBmUL:DL:SBII Status OKCalibrate CurrentsSet GainSet Output LevelChange Gain ConfigRestore Orig ConfigUplink Low Level AmpUplink Mid Level AmpUplink Power AmpDownlink Low AmpDownlink Mid AmpDownlink Power AmpPower SupplyCurrent OLC StatusOLC Historical InfoOLC Historical InfoAvg# dB# %Day# dB# %ULCurrent OLC StatusUplink# dB# %Downlink# dB# %Name of AmpCurrent # Temp #Amp Status MessagePower Supply Status24v ### 12v ###Set Desired GainUplink## dBDownlink## dBDoneSave Changes?Yes NoUplink## dBmDownlink## dBmDoneSet Output LevelsUL >DL >_ _ _ _ Gain ## dB_ _ _ _ Gain ## dBDoneChange Gain ConfigAre you sureyou want to restorethe Factory Presets?Yes NoPress Enter toCalibrate CurrentsCalibrating . . .Done CalibratingPress Enter to SavePress ENTER keyKEYSBII USER MENU 1 (8-20460B)Press Item Select arrow key EEEEEEEEEEEEEEEEEEDetailed StatusConfigurationNOTE:Press ENTERto see DownlinkNOTE:Button press requiredto exit this displayNOTE:Pressing CANCEL always returnsyou to the previous menu withoutsaving changesNOTE:If no button is pressed within2 minutes, system returns toMain Status Display ScreenNOTE:This menu screen will also give youthe option to place an amplifier intoBypass or take one out of Bypass. Figure 8: Signal Booster II Menu System.
Manual 7-9410-1.2 Page 15TX RX Systems Inc. 10/21/0561-83B-50-XXX-XX UserMan page 15 of 25LCD ScreenOnce the boot-up sequence is completed (afterseveral seconds) the LCD screen will switch to themain status display as shown in figure 7. This is thenormal display for the signal booster. The systemwill return to this display from any other display ifnone of the menu interface buttons are pressedwithin 2 minutes. The exception is the OLC statusdisplay which does require a button press to exit.The main status display shows the uplink anddownlink gain in dB as well as the uplink and down-link output level in dBm.The last line of the main status display gives asummary status message for the entire signalbooster. In this example “Status OK” is being dis-played. Pressing the “ENTER” button will moveyou from the main status display into the menuselections and will permit interaction with the sys-tem. There are two main functions available withinthe software menus including configuration set-tings and detailed status displays.Configuration SettingsIn most cases, the factory default settings are theoptimum values for adjustable parameters. Themost common setting to be changed by the sys-tem’s technician is the gain setting. This is normallydone to compensate for varying values of antennaisolation as outlined earlier in this manual or toreduce excessive OLC action resulting from exces-sive gain.Please thoroughly study this section before makingany adjustments to the configuration values. Eachconfigured item is discussed in detail.Note: Changes to configuration set-tings do not take affect until the MainStatus screen is re-enabled. Thisoccurs automatically after 2 minuteswithout button input or manually bypressing the Enter/Done/Cancel but-tons to return to the status screen.RESTORE ORIG CONFIGThis command will restore all configured settings totheir original factory default values. SB II shipsfrom the factory preset to the lowest gain possible.CALIBRATE CURRENTSUse this command when replacing an RF amplifier.This function automatically calibrates the currentalarm “trip” point of each amplifier in the system.Due to manufacturing tolerances there are smalldifferences in current draw between amplifierassemblies. This software function matches thealarm sensing circuit to the respective amplifierassembly and should be repeated whenever anamplifier assembly is replaced.SET GAINThis function allows the user to electronically setthe gain of the booster in 0.5 dB increments over arange of 30 dB. Gain can be adjusted indepen-dently for both the uplink and downlink channelsbut in most cases both uplink and downlink shouldbe set to the same gain value.Know your antenna isolation before making thisadjustment. We recommend that you temporarilydisconnect both the uplink and downlink antennaswhen setting the gain to avoid the possibility ofcausing the unit to oscillate. After changing the set-ting, power the unit down, reconnect the antennasand power-up the booster.Note: A reduction in system gain willalso result in an equal reduction in theOLC dynamic range, refer to the sec-tion titled “OLC” on page 16.SET OUTPUT LEVELAllows the output power for the uplink and downlinkchannels to be independently adjusted in 0.5 dBincrements up to +36 dBm. Note that the OLC cir-cuitry will maintain the systems output level at thevalues you have selected in this menu.Use this function ONLY if your system is causingsome form of interference to another radio system.You can only reduce the booster’s output powerwith this command.CHANGE GAIN CONFIGURATIONInsures proper gain readings when changing basicbooster gain by changing the type of plug-in cardassemblies.Use of this menu is ONLY needed when convertingyour stock SB II to a different gain level by chang-ing the low level, mid-level plug-in amplifier card orthe addition of an attenuator card. It actually is achange to the characteristics of another model.Don’t confuse this with simple amplifier bypassingto reduce gain. Uplink and down link can be setindependently. Choices for gain are Full, Mid orNOTENOTE
Manual 7-9410-1.2 Page 16TX RX Systems Inc. 10/21/0561-83B-50-XXX-XX UserMan page 16 of 25Low and the Enter key toggles the gain setting.The corresponding gain level is displayed. SelectDone using the arrow keys and press enter toreturn to the menu. Use the Cancel button to returnto the Status Display.Detailed Status ScreensThese items allow a detailed examination of sys-tem components including; all amplifiers (currentdraw and temperature), the power supply (voltagelevel), and the OLC function (present status andhistorical archive). Each item is discussed below indetail.AMPLIFIERSA separate status screen is available for eachamplifier in the system. When an amplifier isselected this function will display the present cur-rent draw of that amp as well as its present operat-ing temperature in degrees Celsius. In addition, astatus message will indicate if the amplifier is con-nected and whether the amplifier is bypassed ornot bypassed. This menu selection also providesthe option of placing an amplifier in bypass or tak-ing an amplifier out of bypass.The current draw will be blank if an amplifier is notconnected, will display BYP if the amplifier isbypassed, and will display ATTEN if an attenuatorcard is being used in place of the amplifier card.The power amplifier currents will nor-mally fluctuate up to 850 ma when sig-nals are present.POWER SUPPLYThis function displays the real time power supplyvoltages for both 24 volt and 12 volt supplies.OLCThis screen shows the amount of attenuation pres-ently being used by the OLC for both the uplinkand downlink channels. In addition, the percentageof OLC presently being used is also shown.The amount of OLC currently beingused in either the uplink or downlinkchannels is also indicated by LED bargraph displays located on the displaypanel. Each segment represents 2 to4 dB of attenuation depending on the gain settingof the booster. The OLC bars should only be activeoccasionally and no more than 3 or 4 segmentsbriefly lit. Constant light bar activity means thebooster gain needs to be reduced for optimum per-formance.The system has 60 dB of OLCdynamic range. However, it can bereduced when a portion of thedynamic range is used as fixed atten-uation to reduce system gain. Thereduction will be an equal amount. For instance, ifthe gain is reduced by 20 dB then the OLCdynamic range will also be reduced by 20 dB. Inthe factory, the system gain is allowed to be nomore than 3 dB above the minimum levels of 80/60/45 dB. But every amplifier has slightly differentgains and some have higher gains than the others.When a system gain is more than 3 dB above theminimum level (due to fluctuation in amplifiergains), part of the OLC dynamic range is pro-grammed during final calibration as fixed attenua-tion to reduce the system gain. In the field, a usercan further adjust the system gain by setting the“user selectable gain” lower and effectively pro-gramming more OLC dynamic range into fixedattenuation.OLC DATALOGThis screen displays an OLC Datalog which is theOLC data over the past 100 days for both uplinkand downlink branches of the system. This is a roll-ing 100 day log with day 101 overlapping day 1and so forth. Day zero represents the current daywhile day one represents yesterday and so on. Thelogged data is stored in non-volatile memory andwill not be erased when the unit is powered down.The average OLC attenuation used when the OLCwas active is given both for individual days andover the entire past 100 days. The percentage oftime the OLC was active is also given for both indi-vidual days and over the past 100 days. Thisarchived information will permit the creation of auser signal profile to facilitate optimum system con-figuration and performance.This archive feature will allow you to see if the gainof the unit is set too high or if there are transientepisodes of strong signals perhaps desensingother channels being amplified by the booster.NOTENOTENOTE
Manual 7-9410-1.2 Page 17TX RX Systems Inc. 10/21/0561-83B-50-XXX-XX UserMan page 17 of 25AlarmsThe system continuously monitors the current drawand operating temperature of each amplifier aswell as the voltage level of the +12 and +24 VDCsupplies. If any of these parameters exceed normaloperating levels by a factory preset percentage thesystem enters an alarm condition. Notification of analarm condition is provided by LED indicators andForm-C contacts available via the alarm terminalscrews.LED INDICATORSThere are LED indicators for each amplifier in thesystem as well as the +12 and +24 VDC powersupply voltages. The LED indicators for the low,mid, and low gain amplifiers are located on theindividual plug-in module. These are tri-color LED’swith green representing NORMAL operation,orange representing a WARNING condition, andred indicating a FAULT. A warning conditionoccurs when the current draw of the amplifierexceeds nominal by +/- 20%. Fault conditionsoccur when the current draw exceeds +/- 30% orthe amplifiers operating temperature exceeds 80°Celsius. The LED for the attenuator card is greenonly and indicates DC power applied to the card.The LED indicators for the power amplifiers arelocated on the display panel next to the menuselect buttons and are dual color LED’s. Greenrepresents NORMAL operation while red indicatesa FAULT condition. Fault conditions occur whenthe current draw exceeds 900 ma or falls below200 ma. Also, whenever the amplifiers operatingtemperature exceeds 95° Celsius. The poweramplifiers do not have a warning state.The power supply LED indicators are located onthe display panel next to the menu selection but-tons and are also dual color. Green representingnormal operation and red a fault condition. A faultcondition for the +24 VDC supply occurs wheneverthe voltage potential drops below +16 VDC (30%below nominal). Likewise, a fault for the +12 VDCsupply occurs when the potential is below +8 VDC(30% below nominal).FORM-C CONTACTSForm-C contacts are available inside the cabinetnext to the power supply assembly, see figure 2.These screw terminals are intended for connectionto the customers supervisory alarm or data acquisi-tion system. One set of terminals supplies notifica-SignalGeneratorZeroReferenceSpectrumAnalyzerGainSampleSampleTest PortTest PortFigure 9: Measuring signal booster gain.
Manual 7-9410-1.2 Page 18TX RX Systems Inc. 10/21/0561-83B-50-XXX-XX UserMan page 18 of 25tion of any alarm condition occurring and thesecond set of contacts indicate the system is oper-ating on battery backup power.PERFORMANCE SURVEYIt is a good idea to document the performance ofthe system after installation so that a referenceexists for future comparisons. This information canmake troubleshooting an interference problem orinvestigation of a complaint about system perfor-mance much easier. If there are coverage prob-lems with a system, this survey will usually revealthem allowing corrective measures to be takenbefore the system is put into routine use. The fol-lowing is an outline of how to do such a survey.Because the nature of each installation can bequite different, only a broad outline is given.1) Measure the gain of the signal booster beingcareful not to exceed the maximum input level.Figure 9 shows this being done using a signalgenerator and spectrum analyzer. Record themeasured values for each passband. We rec-ommend that a 50 ohm load be connected tothe unused RF port on the bottom of the cabinetduring the gain test.2) The spectrum analyzer is connected to the -30dB signal sampler port following the final outputamp. This port will allow the observation of theamplifier output at a considerably reduced out-put level. This decoupling value (-30 dB) needsto be added to any measured signal value inorder to arrive at the actual signal level.3) With a spectrum analyzer connected to the sig-nal sampler port (see Figure 10), have person-nel with handheld radios move to severalpredetermined points and key their radios.Record the level of these signals as observedon the analyzer and also record the location ofthe person transmitting. In this way, a map ofthe systems performance can be generated.4) For signals coming from a fixed antenna or sta-tion, record the level of all the desired incomingsignals for future reference.MAINTENANCE AND REPAIRSignal boosters manufactured by TX RX Systems,Inc. can perform for years with little maintenanceand repair. However, if the amplifiers are subjectedto excessively high signal levels, power surges orBoostedRF SignalSignal Distribution SystemSpectrumAnalyzer10 dB PadSampleSampleTest PortTest PortFigure 10: Methodology for doing a performance survey of the signal distribution system.
Manual 7-9410-1.2 Page 19TX RX Systems Inc. 10/21/0561-83B-50-XXX-XX UserMan page 19 of 25lightning strikes, failures may occur. The followingprocedures may be followed for detecting a mal-functioning unit or as part of a periodic mainte-nance program.1) The heatsink area should be cleared of dustand debris.2) Inspect the unit to see that the two power sup-ply LED DC indicators are lit (remove any dustor debris that may obscure the LEDs). This willverify that DC power is flowing properly. Checkall hardware for tightness.3) Compare system performance to initial perfor-mance levels measured when the system wasfirst installed. The lack of signal can be tracedto a malfunctioning amplifier by progressive sig-nal monitoring from the output (far end) to theinput end of the system noting the area wherethe signal returns to normal level. The nextamplifier toward the output end of the systemwill probably be the one that failed.orMeasure the gain at any convenient frequencyin the working frequency band to verify that theperformance is still within specifications.Power Amplifier ReplacementThe SB II power amplifiers are field replaceable.Follow the steps listed below in sequential order.The required tools are a #1 Phillips screwdriverand a 5/16” open-ended wrench.Note: Power to the SB II cabinet mustbe turned OFF during the poweramplifier replacement process.1) Remove the Phillips screws which hold theamplifier into place, refer to Figure 11. The nutsholding the screws are pressed into the cabinetNOTEFigure 11: Remove 14 mounting screws to detach amplifier assembly from cabinet.Remove ScrewsRemove ScrewsRemoveScrewsRemoveScrews
Manual 7-9410-1.2 Page 20TX RX Systems Inc. 10/21/0561-83B-50-XXX-XX UserMan page 20 of 25and will remain in place when the screws areremoved.2) Slide the amplifier towards the bottom of thecabinet as far as it will go. This will allow the topRF connector to clear the opening. Tilt the topof the amplifier outwards and remove the topRF cable at the SMA connector using the 5/16”wrench. See Figure 12.3) Slide the amplifier assembly towards the top ofthe cabinet as far as it will go. This will allow thebottom RF connector and grey control cable toclear the opening. Tilt the bottom of the ampli-fier outwards and remove the bottom RF cableat the SMA connector and the grey controlcable. To remove the grey cable from thesocket on the amplifier it is necessary tosqueeze the top and bottom of the connectortogether to release a hold down tab. Whenproperly squeezed the grey cable will discon-nect easily from the amplifier. Refer to Figure13.4) To replace the amplifier assembly repeat steps1 through 3 in reverse order. When replacingthe RF cables do not overtighten the SMA con-nectors. They should be tightened just slightlymore than hand tight or to the specification of 7in/lbs. The replacement amplifier comes with anattached gasket which must press up againstthe outside of the cabinet firmly and squarely inorder to provide a correct moisture seal.Module ReplacementThe SB II modules are field replaceable. Follow thesteps listed below in sequential order. The requiredtools are a #1 Phillips screwdriver. Two thumbscrews hold each module into place.Note: Power to the SB II cabinet mustbe turned OFF during the modulereplacement process except for theamplifier modules which are “HOT”switchable.1) Loosen the two thumb screws which hold themodule into place. Phillips screws are incorpo-rated into the thumbscrews and they may needto be loosened first.2) Grasping the two loosened thumb screws pullthe module straight out of the card cage.3) To install the replacement module place themodule into the guide-rails of the slot and pressdown firmly into place. Each type of module iskeyed uniquely to fit in only one slot within theNOTEFigure 12: Slide amplifier towards bottom of cabi-net to remove upper cable.Figure 13: Slide amplifier towards top of cabinet toremove lower cables.
Manual 7-9410-1.2 Page 21TX RX Systems Inc. 10/21/0561-83B-50-XXX-XX UserMan page 21 of 25card cage. Once the card is seated into placeproperly tighten the thumb screws.The SB II low level and mid level amplifier stagesare field replaceable by simply removing the mod-ule and plugging in a replacement. These modulesare HOT switchable meaning they can be swappedwithout powering down the system. RF cablesattached to the modules must be removed (5/16”wrench) prior to swapping the modules and mustbe re-attached after the new module is in place.when replacing the RF cables do not overtightenthe SMA connectors. They should be tightened justslightly more than hand tight or to the specificationof 7 in/lbs.Modules can be swapped between the uplink anddownlink branches for troubleshooting purposes. Ifa problem exists in one branch and the problemmoves to the other branch when modules areswapped around this indicates a defective module.Note: After an amplifier module isreplaced use the Calibrate Currentssoftware function to properly set theamplifiers alarm trip point, see page10. Due to slight differences in compo-nent tolerances the trip point must bereset for any new amplifier assembliesintroduced into the system.Display/User Interface Assembly ReplacementThe SB II Display/User Interface assembly is fieldreplaceable. Follow the steps listed below insequential order. No tools are required.Note: Power to the SB II cabinet mustbe turned OFF during the display/userinterface replacement process.1) Loosen the two thumb-nuts which hold the dis-play/user interface assembly to the card cage.NOTENOTEFigure 14: Disconnecting the display/user interface assembly from the card cage.Disconnectribbon cablehere
Manual 7-9410-1.2 Page 22TX RX Systems Inc. 10/21/0561-83B-50-XXX-XX UserMan page 22 of 252) Gently tilt only the top of the assembly up fromthe card cage. Keep the bottom of the assemblyin place. The bottom mounting plate (part of thecard cage) has an overhang on it to support thedisplay/user interface board. If the assembly islifted straight out the overhang it could possiblydamage the interface circuit board.3) With the display/user interface board standingup straight gently move it upwards while lifting itout about an inch or two. This should allow theoverhang to clear the interface circuit boardwithout damage.4) Remove the ribbon cable that connects the dis-play/user interface assembly to the card cage,see Figure 14.5) To replace the display/user interface assemblyrepeat steps 1 through 4 in reverse order.Power Supply ReplacementThe SB II power supply assembly is field replace-able. Follow the steps listed below in sequentialorder. The required tools are a #1 Phillips screw-driver.1) Turn off AC power at the junction box.2) Disconnect the 3 conductor cable that bringsAC power to the supply from the junction box.3) Disconnect the red and black leads from thepower supply that connect to the card cage.4) Remove the Phillips screws that hold the powersupply mount bracket to the back plate andremove the assembly from the cabinet.5) Reverse steps 4 through 2 to install the replace-ment power supply.Duplexer / Filter ReplacementThe filter assemblies are field replaceable. Followthe steps listed below in sequential order. Therequired tools are a #1 Phillips screwdriver with anextended shaft to reach down far enough into theunit to loosen the mounting screws.Note: Power to the SB II cabinet mustbe turned OFF during the filterreplacement process.1) All RF cables attached to the assembly must beremoved (5/16” wrench).2) Remove the Phillips screws that hold theassembly mount brackets to the back plate andremove the assembly from the cabinet.3) Reverse steps 2 and 1 to install the replace-ment filter. When replacing the RF cables donot overtighten the SMA connectors. Theyshould be tightened just slightly more than handtight or to the specification of 7 in/lbs.Card Cage ReplacementTo replace the card cage follow the steps listedbelow in sequential order. The required tools are a#1 Phillips screwdriver with an extended shaft toreach down far enough into the unit to loosen themounting screws.Note: Power to the SB II cabinet mustbe turned OFF during the card cagereplacement process.1) Disconnect the display/user interface assembly.2) Disconnect 4 cables at the backplane of thecard cage which are assessable with the dis-play/user interface board out of the way.3) Remove the row of Phillips screws which holdthe card cage to the back plate. There is a rowof screws at the top and bottom of the cage.4) To install a replacement cage perform steps 3through 1 in reverse order.Tuning InstructionsTuning instructions are provided in support of fieldservice activities. It is assumed that the procedureslisted in this manual will be carried out by a quali-fied electronics technician observing all standardsafety practices.The amplifier assemblies used in the model 61-83B-50-XXX-XX signal boosters are of sufficientbandwidth to cover the entire range of operation.Tuning is not required. The individual filters used inthe duplexer are passive devices of rugged electri-cal and mechanical design. They are tuned at thefactory for the original design requirements andrequire no adjustment or maintenance. Thesedevices will stay properly tuned unless they haveNOTENOTE
Manual 7-9410-1.2 Page 23TX RX Systems Inc. 10/21/0561-83B-50-XXX-XX UserMan page 23 of 25been physically damaged or are tampered with.Combline preselector filters provide the input andoutput selectivity for the system. These filters havea carefully shaped response curve that passes anumber of contiguous communication channelswith each filter designed to cover a 12 MHz band-width.TEST EQUIPMENTA two channel network analyzer that simulta-neously displays both transmission and reflectionis best for properly tuning a preselector. A singlechannel tracking generator/spectrum analyzercombination may be adequate but is not accurateenough to verify factory specifications. A returnloss bridge would also be required when using atracking generator. Skill and experience are alsoneeded and the personnel doing the work shouldbe thoroughly familiar with the use of the networkanalyzer. A Hewlett Packard 8752B or equivalentnetwork analyzer is recommended.PRESELECTOR TUNINGThe following is a general outline of the tuning pro-cedure.1) Connect test equipment as shown in Figure 15.2) Set the analyzer to the desired center fre-quency and desired bandwidth.3) Loosen the tuning rod locking nuts.4) If the preselector is severely out of tune, set theanalyzer for 10 dB/div vertical scale on thetransmission channel and alternately adjust thetuning rods in pairs working from the center tothe end rods for maximum signal at the centerfrequency. Note that for preselectors with anodd number of rods, start with the center rodand then move to the pairs, one on either sideof center.5) Repeat step 4 tuning to maximize the signal atthe center frequency. The response should startto take on the desired shape and symmetry.Setup the analyzer for 1 dB/div (2 dB/div for atracking generator) on the transmission channeland then re-adjust the rods in the same fashion.Make sure that the return loss curve meets orexceeds the published specification over therange and is relatively symmetrical. Fine adjustthe tuning rods to adjust symmetry.7) Lock all tuning rods after the desired responseis obtained. Note that a slight dissymmetry ineither the transmission or reflection responsemay be unavoidable.RECOMMENDED SPARESIt is recommended that one spare of each of thefollowing assemblies be kept on hand for emer-gency repair purposes; Power Supply 8-20667,Uplink Power Amplifier 3-21121, Downlink PowerAmplifier 3-2119, Mid Level Amplifier Card 3-19576, Low Level Amplifier Card 3-19575, LowGain Amplifier Card 3-20294, Attenuator Card 3-20208, Power Distribution Card 3-19833, Control-ler Card 3-19832, and the Display/User InterfaceAssembly 3-19831.AnalyzerInputGenerateOutput+30+40+20+100-10-20-30-408 Section ComblineBandpass FilterFigure 15: Preselector Tuning.
Manual 7-9410-1.2 Page 24TX RX Systems Inc. 10/21/0561-83B-50-XXX-XX UserMan page 24 of 25 Low Gain Model Mid Gain Model High Gain ModelMaximum Gain: +45 dB +60 dB +80 dBGain Adjustment: Programmable attenuation,0-30 dB, 0.5 dB stepsProgrammable attenuation,0-30 dB, 0.5 dB stepsProgrammable attenuation,0-60 dB, 0.5 dB steps3rd Order Output Intercept Point: +55 dBm minimum,with no attenuation+55 dBm minimum,with no attenuation+55 dBm minimum,with no attenuationRF Sampler: PA Output sampler ports PA Output sampler ports PA Output sampler portsNoise Figure (without attenuation): 6.5 dB maximum 3.5 dB maximum 3.5 dB maximum,Operating Temperature Range: -30°C to +50° C -30°C to +50° C -30°C to +50° CNominal Impedance: 50 ohms, <1.5:1 VSWR 50 ohms, <1.5:1 VSWR 50 ohms, <1.5:1 VSWRInput/Output Connectors: N female N female N femaleRF Sampler Connectors: BNC female BNC female BNC femaleAC Power Input: 100-240 VAC; 50-60 Hz 100-240 VAC; 50-60 Hz 100-240 VAC; 50-60 HzDC Input Voltage: +24 to +27 VDC +24 to +27 VDC +24 to +27 VDCUnit Power Consumption (AC/DC): <150 VA <150 VA <150 VAHousing: NEMA 4, NEMA 4XRack MountNEMA 4, NEMA 4XRack MountNEMA 4, NEMA 4XRack MountNominal Size: 24" x 24" x 8" 24" x 24" x 8" 24" x 24" x 8"Net Weight: < 85 lbs. < 85 lbs. < 85 lbs.
Manual 7-9410-1.2 Page 25TX RX Systems Inc. 10/21/0561-83B-50-XXX-XX UserMan page 25 of 25CELCIUS FARENHEIT105 221.0104 219.2103 217.4102 215.6101 213.8100 212.099 210.298 208.497 206.696 204.895 203.094 201.293 199.492 197.691 195.890 194.089 192.288 190.487 188.686 186.885 185.084 183.283 181.482 179.681 177.880 176.079 174.278 172.477 170.676 168.875 167.074 165.273 163.472 161.671 159.870 158.069 156.268 154.467 152.666 150.865 149.064 147.263 145.462 143.661 141.860 140.059 138.258 136.457 134.656 132.855 131.054 129.253 127.452 125.651 123.850 122.049 120.248 118.447 116.646 114.845 113.044 111.243 109.442 107.641 105.840 104.039 102.238 100.437 98.636 96.835 95.034 93.233 91.432 89.631 87.830 86.029 84.228 82.4CELCIUS FARENHEIT27 80.626 78.825 77.024 75.223 73.422 71.621 69.820 68.019 66.218 64.417 62.616 60.815 59.014 57.213 55.412 53.611 51.810 50.0948.2846.4744.6642.8541.0439.2337.4235.6133.8032.0-1 30.2-2 28.4-3 26.6-4 24.8-5 23.0-6 21.2-7 19.4-8 17.6-9 15.8-10 14.0-11 12.2CELCIUS FARENHEIT-12 10.4-13 8.6-14 6.8-15 5.0-16 3.2-17 1.4-18 -0.4-19 -2.2-20 -4.0-21 -5.8-22 -7.6-23 -9.4-24 -11.2-25 -13.0-26 -14.8-27 -16.6-28 -18.4-29 -20.2-30 -22.0-31 -23.8-32 -25.6-33 -27.4-34 -29.2-35 -31.0-36 -32.8-37 -34.6-38 -36.4-39 -38.2-40 -40.0-41 -41.8-42 -43.6-43 -45.4-44 -47.2-45 -49.0-46 -50.8-47 -52.6-48 -54.4-49 -56.2-50 -58.0CELCIUS FARENHEITCELSIUS TO FAHRENHEIT CONVERSION TABLE

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