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OFFICE COPY AMPLIFIED WIRELESS SOLUTIONS. INC RECEIVED Submittal No. Emergency Responder Radio Coverage System AUG 3 2020 Twality Middle School Portland Electrical Construction, Inc. CITY Y OF TIGA D Contract#:486-600 bULDJNt3 DIVISION AWS Project#: 10322 Distributed Antenna System Specification Section: Emergency Responder Radio Coverage System July 16, 2020 SUBCONTRACTOR Amplified Wireless Solutions, Inc. 5760 SE Gaitgill Court Milwaukie,OR 97267 OFFICE COPY CITY OF TICARP, REVIEWED FOR CODE COMPLIANCE Approved: N OTC: ( I Permit #: Ao.an- 00 0 R7 Address: I ei 64 n T ' ► of Suite #: �j Date: I5 '��� For Review and Approval Stamping (1° AMPLIFIED WI.ZELESS SOLUTIONS. INC Submittal No. Emergency Responder Radio Coverage System Twality Middle School Portland Electrical Construction, Inc. Contract#:486-600 AWS Project#: 10322 LIST OF REQUIRED SUBMITTALS Distributed Antenna System Specification Section: Emergency Responder Radio Coverage System Submitted Submitted Future Close Out Section Para. No. Item Description Herein Previously Submittal Document 27 53 19 1.1 Certificates X 27 53 19 2.1 Test Equipment X 27 53 19 3.1 Statement of Work X 27 53 19 4.1 Acceptance Test Plan X 27 53 19 5.1 Shop Drawings X 27 53 19 6.1 RF Link Budget X 27 53 19 7.1 Drawings for Donor Antenna and Grounding X 27 53 19 8.1 Product Data Sheets X 27 53 19 9.1 Maintenance Service Contract X 27 53 19 10.1 Permit Drawings/Letter of Authorization X The undersigned, acting on behalf of Amplified Wireless Solutions, Inc., certifies that this submittal (Submittal No. Emergency Responder Radio Coverage System) has been reviewed and is approved; products have been verified as being as specified, field measurements and field construction criteria have been or will be coordinated, and the submittal is in compliance with the contract. NAME OF SUBCONTRACTOR: Amplified Wireless Solutions, Inc. AUTHORIZED SIGNATURE: TITLE OR POSITION: Operations Manager DATE: July 10, 2020 AMPLIFIED WIRELESS SOLUTIONS, INC Submittal No. Emergency Responder Radio Coverage System Twality Middle School Portland Electrical Construction, Inc. Contract#:486-600 AWS Project#: 10322 TABLE OF CONTENTS Distributed Antenna System Specification Section: Emergency Responder Radio Coverage System Section Para. No. Item Description TAB# 27 53 19 1.1 Certificates 1 27 53 19 2.1 Test Equipment 2 27 53 19 3.1 Statement of Work 3 27 53 19 4.1 Acceptance Test Plan 4 27 53 19 5.1 Shop Drawings 5 27 53 19 6.1 RF Link Budget 6 27 53 19 7.1 Drawings for Donor Antenna and Grounding 7 27 53 19 8.1 Product Data Sheets 8 27 53 19 9.1 Maintenance Service Contract 9 27 53 19 10.1 Permit Drawings/Letter of Authorization 10 AMPLIFIED WIRELESS SOLUTIONS, INC Submittal No. Emergency Responder Radio Coverage System Twality Middle School Portland Electrical Construction, Inc. Contract#:486-600 AWS Project#: 10322 TAB # 1 Distributed Antenna System Specification Section: Emergency Responder Radio Coverage System Para. No. 1 .1 Certificates -\\. -vvx.. x iBWAVE DESIGN CLEVEL 3 ERTIFIED I BWAVE CERTIFICATION PROGRAM J Kerri Argo �......a Participated and successfully completed Level 3. B,CS' This certification is valid until 2022-12-12 ;700ifi1 1-ve30 JD:ov lbw CAt. il.'t,-;Y CONGRATULATIONS ON YOUR SUCCESSFUL COMPLETION. 2019-12-13 i Date i8wave Learning Center George Kechichian,Senior Vice-President,Engineering,i8wave Solutions Inc. i 6wave T wwvai6vaavecom NX\\O\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\O\\\\\\\\\\\\\\\\\\\\\\\\\ \\\\\�\\\\\\\ �\ : 1.-, '' C ,, --. , ,7 ,,„, 0 I N.L,_,,' keeps you connected THIS IS TO CERTIFY THAT C). --- 4/feibied heek. 5 44111.64/14 HAS SUCCESSFULLY COMPLETED THE REQUIRED TRAINING, AND IS CERTIFIED TO INSTALL AND COMMISSION COM-BA CRITIC ALPOINTEm PUBLIC SAFETY'EQUIPMENT ---\ Augustin Chang, President Date I C � AMPLIFIED WIFELESS SOLUTIONS, INC Submittal No. Emergency Responder Radio Coverage System Twality Middle School Portland Electrical Construction, Inc. Contract#:486-600 AWS Project#: 10322 TAB # 2 Distributed Antenna System Specification Section: Emergency Responder Radio Coverage System Para. No. 2.1 Test Equipment Anritsuenvision : enst.lre 490 Jarvis Drive,Morgan Hill,CA 95037-2809,USA Phone: I-800-ANRITSU Fax: 408-776-8024 Certificate of Calibration Standard Calibration The product listed below has been calibrated in accordance with the documented procedures and is certified in compliance with ISO/IEC 17025 and ANSI/NCSL Z540.1. Accuracy of test equipment and standards is traceable to national and/or international standards, national metrology institutes(e.g., NIST, NPL, NMIJ, NIM),or derived from ratio type self calibration techniques. The Anritsu suggested calibration interval is 12 months*. Based on that interval,the Calibration Due Date is 30-January-2021. Model: S412E Customer Id: 10115894 Customer: AMPLIFIED WIRELESS SOLUTIONS Serial Number: 1804035 5760 SE GAITGILL COURT II"`��1IIIII�„I'III'II MILWAUKIE,OR 97267 Calibration Date: 30-January-2020 Issue Date: 30-January-2020 Repair Order: CA224476 Temperature: 24 °C omit 18°cto28°c) Customer PO: AMEX 1123 SULLIVAN Rel. Humidity: 33 % ( oi110%to80%NonCondensing) Calibrated By: ANRITSU AMERICAS Test Procedure: GPRG 73256 SALES COMPANY Procedure Rev: v5.30 490 JARVIS DRIVE Subcontractor Used: No MORGAN HILL, CA 95037-2809 Calibrated on-site at customers location? As Received Condition As Shipped Condition Physical Condition: Good Within Tolerance: Yes Within Tolerance: Yes See note below if Out of Tolerance and/or describe See note below if a Limited Cal was performed or the physical condition if poor: product was returned un-repaired: Certificate Number: US00150713 Calibrated By: Richard Broers Approved By: Keely Lozano, Customer Service Signature: 18 ,24)4 . 4 Signature: 4/-4 * This suggestion is based on Anritsu's global experience with this product. Your application may require a different calibration interval due to factors such as required accuracy, control limits, connector wear or other factors in your measurement process. Anritsu is accredited to IS017025 through A2LA and registered to ISO9001 by NIA. This certificate shall not be reproduced except in full,without the written authorization of Anritsu Company. ACF-2089, Rev. A Page 1 of 2 { CERTIFICATE of ACHIEVEMENT This is to certify that Jim Muzynoski has completed the online course Site Master Line Sweep Online Prep for In-Person Training June 21 , 2017 Course Grade: 85.95 % / flfltsU :x. YApGTroYMQk tea, This certif.:cate proves completion of onhre oourseworfa It is NOT eaunralent to Artrtsu verb€tcatrao >} marcriCIVI,.c L.Vr1 This is not an official FCC license. It is a record of public information contained in the FCC's licensing database on the date that this reference copy was generated. In cases where FCC rules require the presentation, posting,or display of an FCC license,this document may not be used in place of an official FCC license. ,e,,, Cut Along This Line ,..=, Licensee: This is your radio KITED STATES OF AMERICA authorization in sizes • ERAL COMMUNICATIONS COMMISSION9 suitable for your wallet and ' for framing. Carefully cut the General Radiotelephone Operator License documents along the lines as indicated and sign ATTN: JAMES D MUZYNOSKI immediately upon receipt. MUZYNOSKI, JAMES D They are not valid until 5760 SE GAITGILL COURT signed. MILWAUKIE, OR 972 = The Commission suggests 41 that the wallet size version FCC Registration Number(FRN) 002t45 be laminated(or another �' ,•'< similar document protection S ecial tld ton` Endorsements The process) after signing. c NONE Commission has found c E under certain circumstances, t L laser print is subject to i— I— displacement. 0) rn a 0 ., U (.) Grant Date Effective Date Print Expiration Date 05-03-2017 05-03-2017 05-03-2017, File Number Serial Number 0007759940 PG00054949 THIS LICENSE IS NOT TRANSFERABLE (Licensee's Signature) FCC 605-FRC- 107 Cut Along This Line Cut Along This Line Serial Number Grant Date Expiration Dale File Number at Effective Date PG00054949 05-03-2017 0007759940 -03-2 05-03-2017 FCC Registration Number(FRN) THIS LICENSE i§ FE LE 0026458026 20= Special Conditions/Endorsements: y c NONE J J CO L ATTN:JAMES D MUZYNOSKI F , MUZYNOSKI,JAMES D 0 5760 SE GAITGILL COURT a a MILWAUKIE, OR 97267 5 5 U U `- 0 General Radiotelephone Operator License u r (Licensee's Signature) `-..,, . FCC 605-FRC-May 2007 FEDERAL COMMUNICATIONS COMMISSION Cut Along This Line Conditions: Pursuant to §309(h) of the Communications Act of 1934, as amended, 47 U.S.C. §309(h),this license is subject to the following conditions: This license shall not vest in the licensee any right to operate the station nor any t, right in the use of the frequencies designated in the license beyond the term thereof nor in any other manner than authorized herein. Neither the license nor the right granted thereunder shall be assigned or otherwise transferred in violation of the Communications Act of 1934, as amended. See 47 U.S.C. § 310(d). This license is subject in terms to the right of use or control conferred by§706 of the Communications Act of 1934, as amen.-- s e` U.S.C. §606. Conditions: Pursuant to §309(h) of the Communications Act of 1934, as amended, 47 U.S.C. §309(h), this license is subject to the following conditions: This license shall not vest in the licensee any right to operate jhe station nor any right in the use of the frequencies designated in the license beyond the term thereof nor in ; tlr manner than authorized herein. Neither the license nor the right granted thereunder shall be assi. ed otherwise sferred in violation of the Communications Act of 1934, as amended. See 47 U.S.C. §310(d). This license i` ject in terms to the right of use or control conferred by§706 of the Communications Act of 1934, as amen . S 47 U.S.C. §606. A (c4) WIRELESS INC AMPLIFIED WIrZEL SOLUTIONS,S SO O Submittal No. Emergency Responder Radio Coverage System Twality Middle School Portland Electrical Construction, Inc. Contract#:486-600 AWS Project#: 10322 TAB # 3 Distributed Antenna System Specification Section: Emergency Responder Radio Coverage System Para. No. 3.1 Statement of Work AW ••)) ewwu.ieo wiNELEss SOLUTIONS.INC Scope of Work: To provide a custom designed solution to enhance the indoor Public Safety radio coverage with a distributed antenna system to improve radio frequency signal loss caused by materials inside a building. A single donor antenna is mounted on the roof and pointed in the direction of the desired donor site which is tuned to the desired frequency(See Design Notes for city specific requirements).The frequencies are then carried through the 1/2" coaxial cable to the bi-directional amplifier(BDA).The Class A BDA filters and amplifies the desired frequencies through 1/2" coaxial cable and indoor antennas installed in strategic locations along with antennas to attain higher than the required -95 dBm over 95% of the coverage area. Code: 2014 OSSC Fire Code International Fire Code Section 510 Applicable Provisions of NFPA 72, National Fire Alarm Signaling Code Building Information: BuildingName: TwalityMiddle School Address: 14650 SW 97th Avenue,Tigard, OR 97224 Number of Floors: 2 Total Square Feet: 149,000 Design Notes: Renovated Construction Delivered Audio Quality(DAQ): This radio coverage system provides a minimum quality level of 3.4 (DAQ"3.4") on each floor of the building. Supported Frequencies and Channels This Design Supports: 806-824 MHz and 851-869 MHz WCCCA Frequencies as Required DAS System has 15 dB of isolation Amplified Wireless Solutions, Inc. 5760 SE Gaitgill Ct Milwaukie, Or 97267 fr d AMPLIFIED WIRELESS SOLUTIONS,INC Cable and Component Testing Perform and record a sweep test of every cable section using an FDR sweep, by utilizing a 50 ohm load terminator on the end of each cable. Test all sections of cable with 2 connectors at common frequency bands for application (765-855 MHz Etc. to cover 700/800 frequencies) On test results no return loss at any connector along the cable segment shall be greater than 20 db. If more a cable check needs to be done on the run for bends or tears if present replace bad section and re -test cable. General Notes and Procedures 1. Plans are not scaled and for outline only, unless otherwise noted. 2. Before submission of pre-construction drawings, the site will be visited and confirmed that the work will be completed as presented before construction begins. 3. All equipment and materials will be installed in accordance with the manufacturer recommendations unless indicated otherwise or where dictated local codes or regulations are needed. 4. All work performed and materials installed shall be in accordance with all applicable codes, regulations and city ordinances, mechanical and electrical systems will be installed in accordance with all city and state municipal and utility company specifications. 5.The project manager will supervise and direct the work with great attention to detail. Also be solely responsible for all construction methods,techniques and procedures and for coordinating all portions of the project with the site and landlord's authorized contact. 6.All construction shall be in accordance with the City of Tigard municipal code and all adopted state codes including addendums specifically set forth by the City of Tigard. 7. Details are intended to show final result of design. Minor modifications may be required as project is installed. 8. As a general rule, the project manager will keep the area clean, hazard free and dispose of garbage properly. 9. Penetrations of roof membranes shall be patched/flashed and made watertight to protect the property owner. 10. All circuits to be used to power the DAS shall be approved by the electrical engineer for 120V power for the DAS and provide#2 bare copper ground at the head-end equipment location. 11. All wall mounted DAS equipment will be securely mounted on 3/4" backboard. 12. Attach J hooks to 1/2" cabling at 4' minimum sections when not installed in conduit or in supported raceways. 13. Bend radius of 1/2" coax has a minimum of 10" Amplified Wireless Solutions, Inc. 5760 SE Gaitgill Ct Milwaukie, Or 97267 . • N AMPLIFIED W1.9EL•SS SOLUTIONS.INC 14. Provide fire stopped pathways between floors for vertical risers from equipment IDF closets to antenna raceway. 15. Any or all sleeves or penetrations through a fire rated wall will be sealed with Hilti firestop assembly or equivalent. 16. Antenna placement and cable routing is a design schematic only. The actual antenna install location is to be within 10' of design drawing. 17. Secondarybackupcapable of 24 hour runtimeper Cityof Tigard Fire Code. p g 18. It is the installers responsibility to follow and abide bythe code and policyrequirements set forth P Y q by the City of Tigard fire codes. 19. The BDA is capable of providing a minimum of 12 channels in the 700/800 MHz band. 20. Frequencies used by City of Tigard may change as a result of FCC order, or other operational requirements of City of Tigard. In the event of such frequency change and upon notification by the municipality, the building owner shall modify or expand the DAS at their own expense. Amplified Wireless Solutions, Inc. 5760 SE Gaitgill Ct Milwaukie, Or 97267 A ' 0•) AMPLIFIED WIRELESS SOLUTIONS. INC Submittal No. Emergency Responder Radio Coverage System Twality Middle School Portland Electrical Construction, Inc. Contract#:486-600 AWS Project#: 10322 TAB # 4 Distributed Antenna System Specification Section: Emergency Responder Radio Coverage System Para. No. 4.1 Acceptance Test Plan 3 t is. ,„ , AMPLIFIED WIRELESS SOLUTIONS,INC '%J t 44 f . ; i L \ , rl' t t t .xl lif ' ' : s, „yy ' ,g M . I I 1 I. • Jfau i 1 t., " • y F ,ii , i IK 141 ACCEPTANCE TEST PLAN AMPLIFIED WIRELESS SOLUTIONS "Bringing amplifcation of the outside world into your i everyday environment" . .... _... AINPLWIRD NtIRQmmi 50L1JT1oHs,INC 1 . ACCEPTANCE TEST PLAN 1.1. Equipment Setup This section I intended to provide a guideline for the setup of the test equipment. This setup may change based on the make and model number being used to perform tests. When conflicts arise between this document and the manufacturers recommended testing procedures, the manufacturers requirements shall be utilized. • Spectrum analyzer with unity gain (OdB, frequency specific).dipole receive antenna shall be used for acceptance testing. • The test equipment shall have been calibrated within 1 year of the test date. • Test equipment shall be allowed to stabilize in test environment prior to calibration for a minimum of thirty minutes. Any change in temperature can void the calibration. • Signal generator must be connected to the Head end downlink (TX) interface via tested and approved coaxial cabling and connectors. The control channel from the base station can be used as a signal source as well. • Verify that all remote units for the area under test are ON. • 1.2. Acceptance Test Procedure Acceptance test procedure. Where an emergency responder radio coverage system is required, and upon completion of installation, the building owner shall have the radio system tested to verify that two-way coverage on each floor of the building is not less than 90 percent. The test procedure shall be conducted as follows: • Each floor of the building shall be divided into a grid of 20 approximately equal test areas. • The test shall be conducted using a calibrated portable radio of the latest brand and model used by the agency talking through the agency's radio communications system, • Failure of not more than two nonadjacent test areas shall not result in failure of the test. • In the event that three of the test areas fail the test, to be more statistically accurate, the floor shall be permitted to be divided into 40 equal test areas. Failure of not more than four nonadjacent test areas shall not result in failure of the test. If the system fails the 40-area test, the system shall be altered to meet the 90-percent coverage requirement. • A test location approximately in the center of each test area shall be selected for the test, with the radio enabled to verify two-way communications to and from the outside of the building through the public agency's radio communications system. Once the test location has been selected, that location shall represent the entire test area. Failure in the selected test location shall be considered failure of that test area. Additional test locations shall not be permitted. Amplified Wireless Solutions, Inc. 5760 SE Gaitgili Ct Milwaukie, Or 97267 ...._. 3+.,. AMPLIFIED WIDELESS SOLUTIONS.INC 44) • The gain values of all amplifiers shall be measured and the test measurement results shall be kept on file with the building owner so that the measurements can be verified during annual tests. In the event that the measurement results become lost, the building owner shall be required to rerun the acceptance test to reestablish the gain values. • As part of the installation a spectrum analyzer or other suitable test equipment shall be utilized to ensure spurious oscillations are not being generated by the subject signal booster. This test shall be conducted at the time of installation and subsequent annual inspections. 1.3. Documentation This section I intended to provide a guideline for the testing documentation. The guidelines listed below may be changed to meet specific requirements of the project or the Authority Having Jurisdiction (AHJ). • Test frequency and power must be recorded corresponding to the date and time of each site walk measurement. • Test results shall be saved with frequency span +/- 20 MHz relative to the center/measured frequency. • Each floor of the building shall be divided into a grid of 20 approximately equal test areas. Each grid will be labelled on the prints numbered 01-20 • Test results shall be saved in native format with the file name indicating the floor, grid number tested and an alphanumeric identifier if multiple tests are made in the same grid: o Example: The second test in Grid 15 on Floor 3 shall be labeled, FL3- 15-B. FL3 identifies it as the 3r6 floor, 15 identifies Grid 15 and B identifies it as the second test. • Upon completion of testing all test results and prints shall be saved and submitted in PDF format. Amplified Wireless Solutions, Inc. 5760 SE Gaitgill Ct Milwaukie, Or 97267 c41°) AMPLIFIED WIRELESS SOLUTIONS, INC Submittal No. Emergency Responder Radio Coverage System Twality Middle School Portland Electrical Construction, Inc. Contract#:486-600 AWS Project* 10322 TAB # 5 Distributed Antenna System Specification Section: Emergency Responder Radio Coverage System Para. No. 5.1 Shop Drawings A.WS F. Emergency Responder Radio Coverage System ( ERRCS ) for Twality Middle School w, 1 f LL r M r 1 , 4010* liott 14650 SW 97th Avenue Tigard, OR 97224 ..,..,I .... Twenty MS h++.....l Morn— Rw•••••l cam swM AWS $4 TIIYNtO v.pe1 oil AWS . Combs BBU Product Submittals 1622COMDUCTOR 16 OMIIGF IN CONDURORFLEX NUMBERED CONTACTS PROGRAMMABLE RELAY UO CARD (1)AC POWER FAILURE Machankal R2.(I I AC POWER FAILURE (2)LOW BATTERY CAPACITY Ormn.ima,H x W x O 4ynnn) 294 x 23.6 x 12.0(747 x 605 x 305) (3)BATTERY CHARGER FAILURE w.ght(without oledml WON) 44.1(20)(not Include batteries) —ro.(2)Low BATTERY CAPACITY — (4)SIGNAL BOOSTER FAIL Knockouts 7l8-vKh hols for Ii2dnen conduit x 6 R4.(.4)BATTERY CHARGER FAIL ` ° ° (5)ANTENNA MALFUNCTION Operating Temperature "FPO) -27to131(-33to55) O \ ° Oper.Ng Humidly <BS% e Elcbxum Elwimnm.ntS Class UL30E Type 4 ° S Electrical and Battery RELAY NOTE: o Power S&Wy IDIM) VAC 100.240147.63Hz 0 Power SWIY(OupM) MC 48V 1.ALL POINTS(RT-R6)CF CONTACT ARE PROGRAMMABLE 0 Power SLIPPY(Mvimum CANON Current) A 10 A)CONTACT R2 AC POWER FAILURE(DEFALLT) 0 B)CONTACT R3 LOW BATTERY CAPACITY(DEFAULT) ° Heat DreelpeIion BTUAr 143.3 C)CONTACT RN BATTERY CHARGER FAILURE REPROGRAMMING REQUIRED) 0 Bminy AN/Hour.O.wo4y 55N1 IBMs N112-SSW)x 4 2.SEE MANUFACTURER BFORMATTON ON SHEET D0.4 FOR ADDITIONAL CONTACT CONFIGLRATION. I Bau.ry aught I9096) 36.2(16.4) T040 Bally Electrolyte Pound. 29.6 0(PS RACK 1622 CONDUCTOR 16 GAUGE IN CCNOIT OR FLEX Tone)Batley Content Odom 3.17932 1 TO BE PROVIDED/ Bebery Backup Copec y min.24 Hour far WOWS,rein.12 Hour for 200W MONITORED BY AlarmsFRE ALARM CONTRACTOR DrY Contact ONputs 7 Extorts Alnna Input. 4 Mmtnun Input for Dry Canted Pal 24VDC.3A NEUTRAL 70SURE rmv CA.mw �, amnwnuuuaw4 (1)LOSS OF NORMAL POWER (3)LOW BATTERY INDICATION WHEN 70%OF THE 24 C) ems. -------_ ',I HOUR OPERATION CAPACITY HAS BEEN DEPLETED\ i ' `TERMINAL STFdP � (3)FAILURE OF BATTERY CFWROER' COMMA-NFPA COMPLIANT BATTERY BACK-UP POWER o _ e 29.4'CPRRfk23UVI-48058°WX.512'D UL 4 O • ,' COMMA (4)SIGNALBOOSTERFAILIRE 1 .„ ze BATTERY BACKUP ' (5)ANTENNA MALFUNCTION, / 1 - (A 12VDC,SSA/1 SEALED LEAD ACID BATTERY BATTERY LOAD:100 WATTS THAT INCLUDES A 20%BUFFER ESTIMATED RUNTIME:1440 MINUTES TO BOA 16K 4 CONDUCTOR 16 GAUGE IN CONDUIT CR FLEX 120VAC OELCATED POWER INSTALL IN CONDUIT HARDWIRE OR TAMPEFPRDOF CONNECTIONS DETAIL NOTES: 1.FIRE ALARM CONTRACTOR TO OBTAINA SEPARATE FIRE PERMIT FOR THE INTERCONNECTION OF EPACS AND FIRE ALARM Baseline Power Draw:80 Watts ELECTROLYTE CAPACITY CALCLIATKON: A buffer of 20%:100 Watts ELECTROLYTES PER BATTERY:1,575 Got 2.ZONE ID'S OF ERICS MONITORNG TOTAL ELECTROLYTE(4 BATTERIES):fi30 Gal A)AC POWER FAILURE-ROMALLY OPEN BDA/BATTERY BACKUP!RELAY WIRING DETAIL Estimated Runtime:1440.00 Minutes B)LOW BATTERY CAPACITY-NORMALLY OPEN C)BATTER,'CHARGER FAILURE-NORMALLY OPEN D)SIGNAL BOOSTER FAIL-NORMALLY CLOSED E)ANTENNA MALFUNCTION-NORMALLY CLOSED Booster fail if one or more of the Antenna malfunction if one or more of following triggers the following triggers Power Normal Power Lost 1.Over Temperature 1.Downlink Low(for DT port) i—CCLOSE —0 CLOSE 2.Downlink High 2.VSWR(for MT port) o COM 0 COM 3.PA Shutdown •^""'""°-• 4.PLL(Phase Lock Loop] OPEN 0 OPEN 5.Downlink PA 6.INA(low Noise Amplifier) Applies to all 4 alarm relays Booster Normal Booster Fail Antenna Normal Antenna Malfunction TweMY IaS 1--0 CLUSE1 O CLOSE1 1---O CLOSE? —0 CLOSE2 y,,,,•_•_I O COM1 0 COME I 0 COM2 0 COM2 KwX Are -0 OPEN1 O OPEN1 —0 OPEN2 O OPEN2 PwM.I B W.Y Beam Ruw^w Crinbb1r ALM 1 ALM part 1 AWS H COM1:White COW:Brown OPEN1:Blue OPEN2:Purple T15/lan0 Papa.,. Scope of Work: DONOR SITE INFORMATION I.WS("-.' To provide vide a a custom designed solution to enhance the indoor Public Safety radio coverage with a distributed antenna system to improve radio frequency signal loss caused by materials inside a building. A single donor antenna is mounted on the roof and pointed in the direction of the desired donor site - - ---- 4 - m+ 7, m'x4. x7 .• . ° ----S r, rJ which is tuned to the desired frequency(See Design Notes for city specific requirements).The " ; •-i'.• frequencies are then carried through the 1/2"coaxial cable to the bi-directional amplifier(BOA).The f ' r ry, t + -i qz Class A BDA filters and amplifies the desired frequencies through 1/2"coaxial cable and indoor antennas per* jj h '"� ( I. } a - Ifs installed in strategic locations along with antennas to attain higher than the required-95 dBm over 95% - i? , ;. _� 3 of the coverage area. _ - 1_��__� / w6.r ' .` E %•,e# t. < '1. e r, Code: foe Pen) rd803 Cede mwd nnd,9a, .f. > • (`'_ .38 7 ,. 7 L mew8 Omelette. wow"e a:Neu- ark, 4 M 2014 OSSC Fire Code 'v0 3Km' - '58 i jj'_ ' ,, c T - " CroMeeptu r..51 a.s .r ,. .+ • ti` ' International Fire Code Section 510 .' x•4'' w Me4tl`9' ",7 ay. w. . _ Applicable Provisions of NFPA 72,National Fire Alarm Signaling Code -v ) fl: Building Information: - w .- .-. 1 a. �,, Building Name:Twality Middle School • • • " r * p, r" 3 " • " t • Address:14650 SW 97'"Avenue,Tigard,OR 97224 ., . ���fft -- fir 3 z 14� i , S rbu lie x ' ' .I hr i �, f. 4• • ; - • w`^. Number of Floors:2 r IV 1 4 I e -1 x r� eel! 'i''7 ''.4 1;i -1, t'@ '.ve F trout:• ' Total Square Feet 149,000 .ta ' {p,,., ,. s < y5 ( �i-1, di" Rat' / f ." Cf ....^ re�Te Design Notes: 4-' 1 « - r Renovated Construction 7 _ t Al d 1 i , b.;» ,.� 0 _9,, /. Delivered Audio Quality(DAQ): ' 4 ` a_ T C...4, �' ok.• '�.<'7. t ^rt ,., This radio coverage system provides a minimum quality level of 3.4(DAQ"3A")on each floor of the , ,Cf ,y ;e, ,1„` 4 s�' gv F • S'" building. ; +1f •�+ + ' '4"1144.,, 4 s `% " " '§. Supported Frequencies and Channels 3 ra ' ra � c 11 I tc I. dz( • , , , 'fit' - This Design Supports: • ,* t ",F4 a .w.w e alv ._' z « 4b M s'r 5,4 '' ' w,'k.. 806-824 MHz and 651-869 MHz l 1p I AC. to § 44 .7? r} v. St v ' `F WCCCA Frequencies as Required + = . t Dr ayn ,1,Iu�at h k *{g y2' L DAS System has 15 dB of isolation j' 4. Yv W 1'' . T`:' - .4 q rya " '° �" . if t. ��'� t - [able and Component Testing .t ai�1 7. } ✓.-4 .• c+;�,.0 •?tr a 4.. ® C s i > 6't;., - Perform and record a sweep test of every cable section using an FDR sweep,by utilizing a 50 ohm load 4 } "" '+�" 1 - terminator on the end of each cable. Test all sections of cable with 2 connectors at common frequency bands for application(76S-855 MHz 800 MHz(PUBLIC SAFETY)DONOR SITE INFORMATION Etc.to cover 700/800 frequencies) 14.Provide fire stopped pathways between floors for vertical risers from equipment IDF closets to On test results no return loss at any connector along the cable segment shall be greater than 20 db.If antenna raceway. more a cable check needs to be done on the run for bends or tears if present replace bad section and re -test cable. 15.My or all sleeves or penetrations through a fire rated wall will be sealed with Hilti firestop assembly or equivalent. General Notes and Procedures 16.Antenna placement and cable routing is a design schematic only.The actual antenna install location MASTER CROSS REFESFNCF i 15r 1.Plans are not scaled and for outline only,unless otherwise noted. is to be within 10'of design drawing. w¢a Central mourners ®an wcaa West Mount*Top tmtttl0 a m.e Ten de,ubet Snbn sm,bn InR ns 2.Before submission of pre-construction drawings,the site will be visited and confirmed that the work 17.Secondary backup capable of 24 hour runtime per City of Tigard Fire Code. IStei 1 .6862 1SSitte 3 19�4x rStea IAteeu smear will be completed as presented before construction begins. �.d �, � ," 18.It is the installers responsibility to follow and abide by the code and policy requirements set forth by n°aeee ""'•'' C. ° 0`0'"'" a ° a "�' "�"' t» °50"' "`°"`" CM, °`""' n�"" oe Qepe"` Rf0°O°' Q'nW No output Rout M.A� `„Pa ovTn IRn "Tnau6u[ ,nn MEW 4W 3.All equipment and materials will be installed in accordance with the manufacturer recommendations the City of Tigard fire codes. x x x x x x x` unless indicated otherwise or where dictated local codes or regulations are needed. 1 860.7375 815.7375 , 853.7625 808.7625 1 853.5125 808.5125 1 853.8750 8 +08.8750 I 853.9250 808.9750 t 854.4125 809.4125 1 1354.4875 809.4175 19.The BOA is capable of providing a minimum of 12 channels in the 700/800 MHz band. 2 860.2375 815.2375 2 853.2625 808.2625 2 852.9875 B07.9875 2 1353.4125 808.4125 2 853.2125 808.2125 2 854.2125 13052125 2 854.2625 809.2625 4.All work performed and materials installed shall be in accordance with all applicable codes, ' 20.Frequencies used by City of Tigard may change as a result of FCC order,or other operational 3 859.7375 814.7375 3 852.8625 807.8625 3 852.8375 807 8375 3 852.6258 807.6250 3 852.9375 807.9375 3 854.0125 809.0125 3 854.0375 809.0375 regulations and city ordinances,mechanical and electrical systems will be installed in accordance with all requirements of City of Tigard.In the event of such frequency change and upon notification by the a 859.2375 814.2375 4 852,4375 807.4375 4 852.7250 B07.7250 4 852.3375 807.3375 4 852.4125 807.4125 4 852050a B07.0500 4 852.2625 807.2625 city and state municipal and utility company specifications. municipality,the building owner shall modify or expand the DAS at their own expense. s 858.2375 813.2375 5 852.1875 807.1875 5 8519375 806.9375 5 851.9750 806.8750 5 852.7000 807.7000 5851.10013 806.1000 5.The project manager will supervise and direct the work with great attention to detail.Also be solely p responsible for all construction methods,techniques and procedures and for coordinating all portions of a 857.2375 8122375 s 8521625 807.1625 6 656p5W 808.0500 6 Bsz.8770 807.8875 7 856.2375 811 2375 7 851.8580 806.8500 ' 853.7375 808.7375 `.;'f3 f the project with the site and landlord's authorized contact. ,!� 8 855.9e5 810.9625 9 851.4875 806.4875 6.All construction shall be in accordance with the City of Tigard municipal code and all adopted state 9 855.2375 810.2375 9 851.3000 806 3000 codes including addendums specifically set forth by the City of Tigard. la854.9875 809.9875 10 851.2375 806.2375 P9, ' i 7.Details are intended to show final result of design.Minor modifications may be required as project is 11 853.7875 808.7875 ' " I installed. .. l2 fl53.5375 BOB.5375 6MPLfx t 653 , um.w+"ee"`.>a. 8.As a general rule,the project manager will keep the area clean,hazard free and dispose of garbage II 853.4875 808.4875 /,0 smF1c<z fls 14 e properly. t02875 808.2875 Y SMR-%t 65 55 853.2375 8042375 er8N .66.0 g 11055554 851 I.• 9.Penetrations of roof membranes shall be patched/flashed and made watertight to protect the 16 852.9625 807_9625 15681.853 property owner, •.r, C t enue),Ms 10.All circuits to be used to power the DAS shall be approved by the electrical engineer for 120V power for the DAS and provide 112 bare copper ground at the head-end equipment location. treve terI "nn ay. 11.All wall mounted DAS equipment will be securely mounted on 3/4"backboard. ed-.i 12.Attach 1 hooks to 1/2"cabling at 4'minimum sections when not installed in conduit or in supported rn,CwwWe Woes raceways. 13.Bend radius of 1/2"coax has a minimum of 10" AO'S te$ 711520i0 neve ere 1CA12.yyw1 —LCF12-5oJ AWS'. �L -FIG-1.2 NMJMYe.11R .ao=uctic Safety 5 _._.._._ 007Xe c SMRAi NC dM 1fi 014Y1(Boa rM-BIM-d0y-BM1), CBL1 - 151.01/I F2 (I hour Med) Huse well r EMT COMA TO the Roof (11%our M00)Elea*l Ronne E Meanly) li Room NIr12 als for welgCP FACP MSCI I 1401 9w MRI3 III NM, 19G2 _..JMP. BMPBal cBL, 4 CRIB 1B7.85ff BB.BSB NI 2'1 SPT1 Fl (1 hour ruled) clause With SENT conduit to Be Root Alps ANT 18 ,NL11...4.1A30 ESL. i}{r COLA 96111 115.130 SPfB it ANT 11 OAPs cal JMPI CRl 089 R ISEB ,r.�.,... ANT,. i upr terra..... ART 15 1 MR 1.1 AM I; 1 CSL11 A CBL10 ESL9 CMS Cut] •• •• H.MB ....ter_s rF •: 11S B �� BJAiB SPiB BOIBB Bl.b• SIR iwatiry MS MIT I1 1,am.^-1 B.rtI kw, —I Noir O. AWS op)) ms/bio Pape ofa s : ; 8 s ;i _ 2 . N AWS INw ............eiwiia66......_ : Al, E S ... ANn2 ,ire. r , ' E Mai. Dull Olson Weeks-I&Group McNMets,Me. Bn5 se.Puti.uNIIrK3 �.,:r rt ws.. ,,:r •. ••:u a�smaeRpzo m:mmu9z axe sR9R •wM}w... y.. _ __. ._._..... p s3rn s '4 PAE S�! F nlr a x.�lvi O�GO SF rnxEl E 1 ' 11 n -_. cos , G Sara illif 11111 j 93.61 R I.....IYJLID AnilAnil { s`ers AN1IA J' Cal L... MR LS N i nl nZOt:SW b9VT]m F3 0 LBL13 O'. U N SFr, E..., � q/ 1 0O N ._ rt_ a ANTIS 3,70 ... -. .�" tI. i .,.., T B_ III . C W43 -116,31_ 1 ;. 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RPTt� ,soc CBL1B IABCf L a _-:r K, -P y 411R VM1 rp APT R.I PROOF; N -.L �.I: LM] SPT1 On urau 'M: O CAP PPE PRICER _ Actl U ZONE AT CANOPY ' En r "`- nL.n r . .0 • �_ AA CBlla Y 1ae95n ' r. € - - K,) H. S O \ N�\A 1 - : 3i`�v_ — rn as > -f -L ) }i r A urtxx p. -'v� -QF 9°f° v-u.V wn..txu I.Ni M I- # '_a ie WOKaWOKpif1 ie \ ,IG'q.� O I \ D kal—Ta 1441141441411111 �+ 414 ,�' _,,, I jrrr r R6 A I .,.,;, E1uY (YA �\\,\ iiiiim \\ ...,w. F •\ 2p6YFB \ \ \ttp.alrxl e...�u. \ \\\\�� 81548108140111 \\\,\�" date.August 03,2018 Ilau..wmr.... G^' s �cl u.x a \ \� ,_ — r rewsrons ',., \\IN \. \''‘‘\\ IMANSPREA -_- :<< \� \ \ \: 1 SF:.OhD FI OCR PI AN- ,..'ro Ms SPRINKLER HEMS Mi e,w�l ® R.Prr �� Wm MID � V. m �WPER gym.FLOOR PLAN F IRE PROTECTION 4.)) - -. Aws 1 MwlzsnPL L —LCFIO-0J 50 '11S4020 N AWS ., GENERAL NOTES: A REFER TO OE SAMSCAPE AM ARCMTECAUAL DRAWINGS W E FOR EXACT LOCATION OF ALL ENPLANES MO DEVICES. REQUEST CIADDCATICES IN EERIE PRIOR TO MEDITATION PETALLED UNCOORDINATED RESENTS SMALL BE RELOGTEO PER TIE DWECTIDII OF THE ANDEECT W RNdo AOOITCMN tlSS TO TIE PROJECT CMIER OR DESGY TEAL IT EL-CORED a EMERGE/CV EGRESS LIGHTING WIS RE POWERED SANITISE 5 BINDNG ELEIEFW:Y PLATTER SYSTEM. C.REFER TO ITNDSCAPETAVA DPAWWJS FOR POLE LTOA1O . — 0.P/AING LIER ING IS LED RI GENRE/TNRAMPN RQF BASE rpm TOP OF LINO ROILS ARE ELBOW CRAM REFER TO UNEASE !ni( 'B I SOSESSAE FOR FUROER NFORuArlax LJ E REFERENCE CORING COWAN RBA'SCIEDULES OM EV SE. ..fr •"'" Dull Olson Weekes•I01 Group F.ALL BRANCH CIRCUITING SHOWN S N WIRING. Architects.Inc. av WSW SumA,N GWN OPB OS , USA m®`O M WAPfPi�1 , -PAE SO .cNoa ,`'`�r - - a1'( Q s,.a sd7 ,,Di Q .�+ / W ItV^,. i r < XX q GM] s1T SIC T Si SIC L s,.p s .... as / . � O .,_ T . r'' ,Sz /,� sT .0 d Y N f0 a, o-s, p Ceu / r ti ST ,'�. M f— `I N. N. .. (I / , 3va 05 \ ,�oMSC on fY /1 / "F _ LC f+l(7 ' , I/ 3 -� ��5� / n ` � SA f �` g / a D ' B1 i I y w (veC - A • r P I . DBw INEDE � I peNBIOpnIBn1 �I '�GEIEMT04 �' debiNgue103 YDiB ,,,� ,,,,,, �I ,, , I"'cDu'T- , N 4-- ; .1 i r�m.I s'l � e " T A613'C NNfiY fAN01X:i0Rst �_i ✓ SER:ICE IRAN3JTAER i+KC •�� .. .-_ Twee,S'MS �D�" !'MCIPGEI OPY, T/ ` SEWITW T pr9ectii ii0� a..w...l !MOANS.. __:...:_. -_......:__. _._._._ - x_ _ w,Jr SITE PLAN.ELECTRICAL h V_ AWS s•S ROOF E> Es OSITEPIAN.E L ECTRICAI. ---. ... _._.. ]MYNA 800 Public Safety- 800 MHz- SMR- Digital /Signal strength Fl AWSr; w 1 +' I hurl I laJJ "" 2k I I i _ 1 C qY WY N i aw :,, LiW y0 N C g Wll ! J B 1 A `_ , Q+ 11 * c _ w Created on 7/16/2020 Page 1/2 800 Public Safety- 800 MHz - SMR - Digital / Signal strength F2 IMMIIIIIINIII i I 4 +.... • • �{ ,., l . 1-- I P.'-_L J c I An in t � ri FF a , i 1 v. u pia ta.. .. { s s ca> .- . NRIEWIM ©� _ ._--, -- -( m 0ti- -nccva ® A S Created on 7/16/2020 Page 2/2 S.)) AMPLIFIED WIFELESS SOLUTIONS, INC Submittal No. Emergency Responder Radio Coverage System Twality Middle School Portland Electrical Construction. Inc. Contract#:486-600 AWS Project#: 10322 TAB # 6 Distributed Antenna System Specification Section: Emergency Responder Radio Coverage System Para. No. 6.1 RF Link Budget Link Budget Report Project name: Twality MS Design company: Project creation date: 7/15/2020 Designer: Kern Argo DAS]ink bud:et resort , ✓k+t' rv' „r.^w,N r ."'7i n, 'v' e a' 80D MHz'SMR-Digita '✓7 ., '"^✓�'✓' �, ?P". Sector 1 -- Gam/less ,ainJloss & �:, . (dB) (dBm) . "dB) (dBm) _. , B d6 m) !. ..a ANT 1.1 ANT 1.1(dBd) CELLMAX-O-CPUSE - -0.14 -0.79 - - - - - - - - MS RSSI [dBm] - - -77.08 - - - - - - - - - MS signal range[feet] - - 198.54 - - - - - - - - - CBL2 ICA12-50JPL 83.08 -1.89 -0.65 - - - - - - - SPT2 DC-R05-ON300C(XH) - -2.10 1.24 - - - - - - - - CBLB ICA12-5OJPL 90.89 -2.06 3.34 - - - - - - - - SPT3 DC-R08-ON300C(XH) - -1.20 5.40 - - - - - - - - CBL9 ICA12-50JPL 90.63 -2.06 6.60 - - - - - - - SPT4 DC-R10-ON300C(XH) - -0.70 8.66 - - - - - - - - CBL10 ICA12-50JPL 11.35 -0.34 9.36 - - - - - - SPT5 DC-R13-ON300C(XH) - -0.50 9.70 - - - - - - - CBL11 ICA12-50JPL 29.20 -0.73 10.20 - - - - - - - - SPT1 DC-R08-ON300C(XH) - -1.20 10.93 - - - - - - - - CBL12 ICA12-501PL 44.42 -1.06 12.13 - - - - - - - - SPT7 DC-R08-ON300C(XH) - -1.20 13.19 - - - - - - - - JMP5 RG-142 NM-NM-3' Jumper -0.57 14.39 - - - - - - - - RPT1 RX08V1-A2748-UL - 89.12 14.96 - - - - - - - - JMP4 RG-142 NM-NM-3' Jumper -0.57 -74.17 - - - - - - - - MSC1 CGXZ-36NFNF-A - -0.10 -73.60 - - - - - - - - CBL1 LCF12-SOJ 159.01 -3.50 -73.50 - - - - - - - - Created on 7/16/2020 Page 1/11 D SllnC bu&etie.ort ~' �36 z MHz-SMR Digktai 'u' ``.c✓w x ..J$ni ✓/Su/; v g. x `or 1 ' r .,,�, v. `;rl s r , x r % `s •? "' ;; gth doss , ` < , Gainlioss ''„` oss ,,, s, ` i feet) ,x (d . '. dBm) (d a .. ,,(dBm} tIB) (d8 Donor(ANT R.1) CSI-AY/746-896/11 - 11.001 -70.001 - (11dBi Yagi 746- i 1896MHz) Created on 7/16/2020 Page 2/11 i5 .✓ s,r ,�, r „,.% 4 % DAS link bud:et rev ort yr z-SMR Digital , ,, '.. ,,,g.'k , ,rrr r,m ✓�. ,� x ,, a a:'.i ✓.✓""," -Sector 1 r ..` ✓ .�„ �x'.'"""` "%.,�✓, w n ..�.., Gain/loss,,. n oss' " Gakn/LOSS , ( "a `(d8) (dam) � d „" ?dBryy d 'r (dBm) (d6) (dBm)8m) ANT 1.2 ANT 1.2(dBd) CELLMAX-O-CPUSE 0.14 2.23 - MS RSSI [dBm] 78.52 1 MS signal range[feet] - 174.78 CBL7 ICA12-50JPL 15.39 -0.43 -2.09 - - - - - - - - SPT2 DC-R05-ON300C(XH) - -5.00 -1.66 - - - - - - - - CBL8 ICA12-50JPL 90.89 -2.06 3.34 - - - - - - - SPT3 DC-R08-ON300C(XH) - -1.20 5.40 - - - - - - - - CBL9 ICA12-SOJPL 90.63 -2.06 6.60 - - - - - - - SPT4 DC-R10-ON300C(XH) - -0.70 8.66 - - - - - - - - CBL10 ICA12-50JPL 11.35 -0.34 9.36 - - - - - - - - SPT5 DC-R13-ON300C(XH) - -0.50 9.70 - - - - - - - - CBL11 ICA12-50JPL 29.20 -0.73 10.20 - - - - - - - - SPT1 DC-R08-ON300C(XH) - -1.20 10.93 - - - - - - - - CBL12 ICA12-50JPL 44.42 -1.06 12.13 - - - - - - SPT7 DC-R08-ON300C(XH) - -1.20 13.19 - - - - - - - - JMP5 RG-142 NM-NM-3' Jumper -0.57 14.39 - - - - - - - - RPT1 RX08V1-A2748-UL - 89.12 14.96 - - - - - - - - JMP4 RG-142 NM-NM-3' Jumper -0.57 -74.17 - - - - - - - - MSC1 CGXZ-36NFNF-A - -0.10 -73.60 - - - - - - - - CBL1 LCF12-50J 159.01 -3.50 -73.50 - - - - - - - - Donor(ANT R.1) CSI-AY/746-896/11 - 11.00 -70.00 - - - - - - - - (11dBi Yagi 746- 896M H z) Created on 7/16/2020 Page 3/11 DAB lint bud:etre.ort >_,„ 800 MHz-SMR Digital q Se„ct�or 1 X , h i .,,.r:. Gain/loss ' « ''.l Gain/loss' s. ; "„'-Gain/loss41; e s.. ?' '.''' /loss r..w ,,? .l. m);' f, tfeB) (dBm) (dB) ( ,_ (dB) .(dB) ANT 1.3 ANT 1.3(dBd) CELLMAX-O-CPUSE - -0.14 -2.11 - - - - - - - - MS RSSI [dBm] - - -78.39 - - - - - - - - - MS signal range[feet] - - 176.70 - - - - - - - - JMP1 RG-142 NM-NM-3' Jumper -0.57 -1.97 - - - - - - - - SPT3 DC-R08-ON300C(XH) - -8.00 -1.40 - - - - - - - - CBL9 ICA12-50JPL 90.63 -2.06 6.60 - - - - - - - - SPT4 DC-R10-ON300C(XH) - -0.70 8.66 - - - - - - - - CBL10 ICA12-50JPL 11.35 -0.34 9.36 - - - - - - - SPT5 DC-R13-ON300C(XH) - -0.50 9.70 - - - - - - - - CBL11 ICA12-50JPL 29.20 -0.73 10.20 - - - - - - - - SPT1 DC-R08-ON300C(XH) - -1.20 10.93 - - - - - - - - CBL12 ICA12-SOJPL 44.42 -1.06 12.13 - - - - - - - - SPT7 DC-ROS-ON300C(XH) - -1.20 13.19 - - - - - - - - JMPS RG-142 NM-NM-3' Jumper -0.57 14.39 - - - - - - - - RPT1 RX08V1-A2748-UL - 89.12 14.96 - - - - - - - - JMP4 RG-142 NM-NM-3' Jumper -0.57 -74.17 - - - - - - - - MSC1 CGXZ-36NFNF-A - -0.10 -73.60 - - - - - - - CBL1 LCF12-50J 159.01 -3.50 -73.50 - - - - - - - Donor(ANT R.1) CSI-AY/746-896/11 - 11.00 -70.00 - - - - - - - - (11dBi Yagi 746- 896M H z) Created on 7/16/2020 Page 4/11 DAy link hud.etre.ort ' ,".l'i goo MHz-will-Digital Sector l ngth Gain/loss Gee/toss' "Gail oss " Gain/loss ''Gain/toss ,,.�. .,,.. .. .. (feet) (dB) (dBm) B , � (dBrn) '� (dB) (dBmpr " (dB) (dBm) 'iB) (dBm) ANT 1.4 _ ANT 1.4(dBd) CELLMAX-O-CPUSE - -0.14 -3.51 - - - - - - - - MS RSSI[dBm] - - -79.79 - - - - - - - - MS signal range[feet] - - 156.11 - - - - - - - - - JMP2 RG-142 NM-NM-3' Jumper -0.57 -3.37 - - - - - - - - SPTS DC-R13-ON300C(XH) - -13.00 -2.80 - - - - - - - - CBL11 ICA12-501PL 29.20 -0.73 10.20 - - - - - - - SPT1 DC-R08-ON300C(XH) - -1.20 10.93 - - - - - - - CBL12 ICA12-50JPL 44.42 -1.06 12.13 - - - - - - - - I SPT7 DC-R08-ON300C(XH) - -1.20 13.19 - - - - - - - - JMPS RG-142 NM-NM-3' Jumper -0.57 14.39 - - - - - - - - RPT1 RX08V1-A2748-UL - 89.12 14.96 - - - - - - - - JMP4 RG-142 NM-NM-3' Jumper -0.57 -74.17 - - - - - - - - MSC1 CGXZ-36NFNF-A - -0.10 -73.60 - - - - - - - - CBL1 LCF12-50J 159.01 -3.50 -73.50 - - - - - - - - Donor(ANT R.1) CSI-AY/746-896/11 - 11.00 -70.00 - - - - - - - - (11dBi Yagi 746- 896MHz) Created on 7/16/2020 Page 5/11 DAS link bud:et re.ort 800 MHz-SMR Digital w,a'✓r y s w ydn, .r a Sector 1 h Gain loss Cx h.m loss Gain loss ,. Gain loss ] l s� / 1 / d tnfloss �. �. (dB) . .`.: � {' ) (dBm) (dB) (dem) i (d8m) ANT 1.5 - - - ANT 1.5(dBd) CELLMAX-O-CPUSE -0.14 -2.91 MS RSSI[dBm] - -79.19 - - - - - - - - - MS signal range[feet] - 164.69 - - - - - - - - CBLS ICA12-SOJPL 93.63 -2.12 -2.77 - - - - - - - - SPT4 DC-RI0-ON300C(XH) - -10.00 -0.64 - - - - - - - - CBL10 ICA12-5OJPL 11.35 -0.34 9.36 - - - - - - - - SPT5 DC-RI3-ON300C(XH) -0.50 9.70 - - - - - - - - CBL11 ICA12-50JPL 29.20 -0.73 10.20 - SPT1 DC-R08-ON300C(XH) -1.20 10.93 - - - - - - - - CBL12 ICA12-50JPL 44.42 -1.06 12.13 - - - - - - - - SPT7 DC-R08-ON300C(XH) -1.20 13.19 - - - - - - - - JMP5 RG-142 NM-NM-3' Jumper -0.57 14.39 - RPT1 RX08V1-A2748-UL - 89.12 14.96 - - - - - - - - JMP4 RG-142 NM-NM-3' Jumper -0.57 -74.17 - - - - - - - - MSC1 CGXZ-36NFNF-A -0.10 -73.60 - - - - - - - - - CBL1 LCF12-50J 159.01 -3.50 -73.50 Donor(ANT R.1) CSI-AY/746-896/11 11.00 -70.00 (11dBi Yagi 746- 896MHz) Created on 7/16/2020 Page 6/11 . pAS link btrt :et r .6rt 800 MHz-SMR-Digital rY1 w,w a,.1 ✓ .moo, -Sectorl "'`" f ' in/loss Gain/toss Gain/loss "_` �O Gain/loss ' eet) �` (dBm) (dB) {dBm) (d8) (dBm) ( ,1 (dB) (dBm) ANT 1.6 ANT 1.6(dBd) CELLMAX-O-CPUSE - -0.14 -3.72 - - - - - - - - MS RSSI [dBm] - -80.00 - - - - - - - - - MS signal range[feet] - 153.28 - - - - - - JMP3 RG-142 NM-NM-3' Jumper -0.57 -3.58 - - - - - - - - SPT6 DC-R05-ON300C(XH) - -5.00 -3.01 - - - - - - - - CBL4 ICA12-5OJPL 94.38 -2.14 1.99 - - - - - - - - SPT1 DC-R08-ON3000(XH) - -8.00 4.13 - - - - - - - - CBL12 ICA12-50JPL 44.42 -1.06 12.13 - - - - - - - - SPT7 DC-R08-ON300C(XH) - -1.20 13.19 - - - - - - - - JMP5 RG-142 NM-NM-3' Jumper -0.57 14.39 - - - - - - - RPT1 RX08V1-A2748-UL - 89.12 14.96 - - - - - - - - JMP4 RG-142 NM-NM-3' Jumper -0.57 -74.17 - - - - - - - MSC1 CGXZ-36NFNF-A - -0.10 -73.60 - - - - - - - - CBL1 LCF12-50J 159.01 -3.50 -73.50 - - - - - - - - Donor(ANT R.1) CSI-AY/746-896/11 - 11.00 -70.00 - - - - - - - - (11dBi Yagi 746- 896MHz) Created on 7/16/2020 Page 7/11 rr , �; ea„ xrxr 'wwfr y i?,. DAS link bud:et � ,.�✓', 800 MHz-SMR Digital , N r.d , ✓r' Sector 1 r' g ✓.*, ;. ,✓ '' e Gain/loss Gain/toss .; fain/loss Gain/loss.„, (feet ✓ (dB) (d r (dBm) ANT 1.7 ANT 1.7(dBd) CELLMAX-O-CPUSE - -0.14 -2.83 - - - - - - - - MS RSSI[dBm] - - -79.11 - - - - - - - - - MS signal range[feet] - - 165.78 - - - - - - - - - CBL3 ICA12-50JPL 115.12 -2.58 -2.69 - - - - - - - - SPT6 DC-R05-ON3000(XH) - -2.10 -0.11 - - - - - - - - CBL4 ICA12-SOJPL 94.38 -2.14 1.99 - - - - - - - - SPT1 DC-R08-ON300C(XH) - -8.00 4.13 - - - - - - - - CBL12 ICA12-501PL 44.42 -1.06 12.13 - - - - - - - - SPT7 DC-R08-ON300C(XH) - -1.20 13.19 - - - - - - - - JMPS RG-142 NM-NM-3' Jumper -0.57 14.39 - - - - - - - - RPT1 RX08V1-A2748-UL - 89.12 14.96 - - - - - - JMP4 RG-142 NM-NM-3' Jumper -0.57 -74.17 - - - - - - - - MSC1 CGXZ-36NFNF-A - -0.10 -73.60 - - - - - - - CBL1 LCF12-50J 159.01 -3.50 -73.50 - - - - - - - Donor(ANT R.1) CSI-AY/746-896/11 - 11.00 -70.00 - - - - - - - - (11dBi Yagi 746- 896MHz) Created on 7/16/2020 Page 8/11 you � " , � J9J+,Slink bud.et re•ort,,, gar 300MHz-SMR Digitai , .4 H d V,,.. Slr' J Yf r} .i✓.,d.^. F } -Sector 1 4„4 " ' ��" �" Gain/lossspits �+,� G ss r. ar feet). .,,.,, � rii. ( .. - (d8) ANT 2.1 ANT 2.1(dBd) CELLMAX-D-CPUSE - 2.85 -1.58 - - - - - - - - MS RSSI [dBm] - -77.87 - - -_ - - - - - - 185.14 - MS signal range[feet] - - - - - - - - CBL6 ICA12-50JPL 206.99 -4.57 -4.43 - - - - - - - - SPT8 DC-R05-ON300C(XH) - -2.10 0.13 - - - - - - - - CBL13 ICA12-50JPL 187.95 -4.16 2.23 - - - - - - - SPT7 DC-R08-ON300C(XH) - -8.00 6.39 - - - - - - JMPS RG-142 NM-NM-3' Jumper -0.57 14.39 - - - - - - - - RPT1 RX08V1-A2748-UL - 89.12 14.96 - - - - - - - - JMP4 RG-142 NM-NM-3' Jumper -0.57 -74.17 - - - - - - - - MSC1 CGXZ-36NFNF-A - -0.10 -73.60 - - - - - - - - CBL1 LCF12-50J 159.01 -3.50 -73.50 - - - - - - - - - Donor(ANT R.1) CSI-AY/746-896/11 - 11.00 -70.00 - - - - - - - - (11dBi Yagi 746- 896MHz) Created on 7/16/2020 Page 9/11 ' '�;',, V'.G Z ,,i 0:4$4;, i'. ,#` r .° f' ;n„` DAS link bud:et resort " 1'y.r Y ti'. a u: t a ra (' m y { ), 800 MHz-SMR-Digital „.r.,..ar .. x'a~, ' .r "N 7. " J .r y f Y As'a -, Scor1 ,` i r'' u R Gam/lossv c ?,.-:(,-,,''',./;. r to t Y : losS Gain/loss r "Gain/loss 'Gain/toss r f s r ,e, ,E ` �rr .1 , re (feet) " Rf4 ,c. %�% (d8),�y " . ' " )' B) (dBm) (dB} {dBm} . a(d0} (dBm)uz .7. "kir wr , ANT 2.2 ANT 2.2(dBd) CELLMAX-D-CPUSE - 2.85 -3.22 - - - - - - - - MS RSSI [dBm] - - -79.50 - - - - - - - - - MS signal range [feet) - - 160.17 - - - - - - - - - CBL14 ICA12-50JPL 148.38 -3.30 -6.07 - - - - - - - - SPTB DC-R05-ON300C(XH) - -5.00 -2.77 - - - - - - - - CBL13 ICA12-50JPL 187.95 -4.16 2.23 - - - - - - - - SPT7 DC-R08-ON300C(XH) - -8.00 6.39 - - - - - - - - 1MP5 RG-142 NM-NM-3' Jumper -0.57 14.39 - - - - - - - - RPT1 RX08V1-A2748-UL - 89.12 14.96 - - - - - - - - JMP4 RG-142 NM-NM-3' Jumper -0.57 -74.17 - - - - - - - - MSC1 CGXZ-36NFNF-A -0.10 -73.60 - - - - - - - - CBL1 LCF12-50J 159.01 -3.50 -73.50 - - - - - - Donor(ANT R.1) CSI-AY/746-896/11 - 11.00 -70.00 - - - - - - - - (11dBi Yagi 746- 896MHz) , S stem link bud:ct '- . 'f` rer ;trmrl.l;. wr ro re^er , v r fMaSMR-Dt ita" r . x to t .„(rn•,., r+s . re tOY1 ,G r r i .ry re r Y r .,rr r Gain/lass v n/loss Gain/loss• " ss ' } k r ,,.,� fi,, rr. Mn: 1 ry4l if ti,}r.r # r :v "$ +, ?,"y ;&"i ',.,y,x r T( ? e " .ti.r at,?.', �. .o-, dBm d8 (darn) dB dBm # l'„, d8m r ,� ,,..," ,, t r rw (dJ3) (d8m} ( � (dBm) {� ) ( } � ( ) �. ( ) OffAirl(800 MHz-SMR-Digital-Sector Isotropic offset - 2.15 -70.00 - - - - - - - - OffAir-Donor Gain CSI-AY/746-896/11(11dBi Yagi 8.85 -72.15 - - - - - - - - (dBd) 746-896MHz) Measured RSSI - - -81.00 - - - - - - - - Power out - - -70.00 - - - - - - - - m a ","ce is'r z�'<ua.,t.�^,a� arrcr"; 5� c'"<u rr'a ,, tea'",Gat t, System legend a a . `.iu?a'` '*:,a rzs r„ a✓ ,+.r, ",.c v Fvaza:asF•ar,a;... ,,.a,yra=.ho»' 800 Public Safety/Digital/800 MHz-SMR/PS-NPSPAC/Sector number:1/Nb of channels:16/Nb.of sources: 1 Created on 7/16/2020 Page 10/11 800 MHz-SMR-Digital-Sector 1/MS RSSI[dBm](at 98.43 [feet])/MS signal range[feet](for-85.00[dBm]) Created on 7/16/2020 Page 11/11 Cable Routing Report Project name: Twality MS Design company: Project creation date: 7/15/2020 Designer: Kern Argo Source s1 .,,.' i ,(Mohi Ca h(feet) r, Par ry ;, P �T Part con c1otSr444y- Typei$X, Model Manufacturer: Est+20% Measured CBL1 ANT R.1 Ant !ROOF MSC1 Antenna F2 Coaxial LCF12-50J RFS 190.81 , CBL13 SPT7 Tap F2 SPT8 Common F2 Coaxial ICA12-50JPL RFS 225.54 CBL12 SPT7 Through F2 SPT1 Common Fl Coaxial ICA12-50JPL RFS 53.30 CBL11 SPT1 Through F1 SPT5 Common F1 Coaxial ICA12-501PL RFS 35.04 CBL10 SPT5 Through Fl SPT4 Common F1 Coaxial ICA12-501PL RFS 13.62 CBL9 SPT4 Through Fl SPT3 Common Fl Coaxial ICA12-50JPL RFS 108.76 CBL8 SPT3 Through F1 SPT2 Common Fl Coaxial ICA12-50JPL RFS 109.07 CBL7 SPT2 Tap Fl ANT 1.2 Ant F1 Coaxial ICA12-50JPL RFS 18.47 JMPS RPT1 Out F2 SPT7 Common F2 Coaxial RG-142 NM- Tessco Jumper NM-3' Technologies JMP4 MSC1 Equipment F2 RPT1 In F2 Coaxial RG-142 NM- Tessco Jumper NM-3' Technologies JMP3 SPT6 Tap F1 ANT 1.6 Ant Fl Coaxial RG-142 NM- Tessco Jumper NM-3' Technologies JMP2 SPT5 Tap Fl ANT 1.4 Ant Fl Coaxial RG-142 NM- Tessco Jumper NM-3' Technologies JMP1 SPT3 Tap Fl ANT 1.3 Ant Fl Coaxial RG-142 NM- Tessco Jumper NM-3' Technologies CBLS SPT4 Tap Fl ANT 1.5 Ant Fl Coaxial ICA12-50JPL RFS 112.35 CBL4 SPT1 Tap Fl SPT6 Common Fl Coaxial ICA12-50JPL RFS 113.26 CBL3 SPT6 Through Fl ANT 1.7 Ant F1 Coaxial ICA12-50JPL RFS 138.14 CBL2 SPT2 Through Fl ANT 1.1 Ant Fl Coaxial ICA12-50JPL RFS 99.70 CBL6 SPT8 Through F2 ANT 2.1 Ant F2 Coaxial ICA12-50JPL RFS 248.39 Created on 7/16/2020 JS=Jumper Source side/1M=Jumper Mobile side Page 1/2 M(Sou Mobile side)"$ Info Length feet). Part conn Fftt,7 n �... .. � Vert�conn Floor .�Ype�'.,� of Manufaeturew '..... . 0%. Measured CBL14 SPT8 ITap F2 ANT 2.2 lAnt F2 Coaxial ICA12-501PL RFS 178.06 Total(feet): Esti mated` Measured 0.001 0.00 *Only rows with a measured length are considered Estimated Measured" 1,644.51 1,644.51 "Rows without a measured length use the estimated length Created on 7/16/2020 JS=Jumper Source side/JM=Jumper Mobile side Page 2/2 Equipment List Report Project name: Twality MS Design company: Project creation date: 7/15/2020 Designer: Kerri Argo Antenna Cellular Specialties, CSI-AY/746- Yagi Antenna Public Safety 700/800(746- 1 Inc 896/11(11dBi 896MHz) 11 dBi Yagi 746- R9FMH71 Antenna CommScope CELLMAX-D- Cell-Max-Directional Inbuilding Antenna- 2 CPUSE 698-960 MHz/1710-2700 MHz-N-Female Antenna CommScope CELLMAX-O- Cell-Max In-Building Antenna System- 7 CPUSE Omnidirectional Inbuilding Antenna, 698-960 MHz and 1710-2700 MHz-N-Female Cable RFS LCF12-50J CELLFLEX-1/2" Low-Loss Foam Coaxial Cable, 200 Halogene Free, Polyethylen, PE,not Flame Retardant Cable RFS ICA12-50JPL ClearFillLine- 1/2in Low Loss Air Dialectric 1600 Cable-Plenum Rated/Indoor/Outdoor Usage/Color Blue UV rated to ASTM G155 Meets/Exceeds:Steiner Tunnel Test Method I II • 1- n.fn r'7 I \ "•1. kl,11. 1r'1 Cable Tessco Technologies RG-142 NM-NM- Teflon Jumper Cable 3'RG142 N-Male/N- 5 3' Male-Dual Silver Shields-Brown Tinted FEP Jacked Connector RFS NF-LCF12-DO1 N Female OMNI FIT Connector for LCF12-50 3 Cable Connector RFS NM-LCF12-D01 Connector-LCF12-50-N Male Connectors 35 Miscellaneous Rohn FRMMAT Non Pen roof mount Mat 1 Miscellaneous Rohn FRM Non Pen roof mount 1 Miscellaneous Tessco Technologies 415105 Universal Ground Bar 1 Miscellaneous Tessco Technologies 41669 Standard Grounding Kit 1/2"Coax 1 Miscellaneous PolyPhaser CGXZ-36NFNF-A 400-1200 MHz Lightning Protector 1 Miscellaneous Comba CPBBUV1-48055- Battery Backup Unit, 100-240VAC input,48 1 UL VDC output,55 Amp-Hour Power System. UL 2524 Certified Supports 4 External Alarms+7 Dry Contact Repeater Comba RX08V1-A2748- (N.America)(PS BDA)(Class A)CriticalPoint'" 1 UL Public Safety Bi-Directional Amplifier 0.5W Single Band 800MHz Class A BDA/Repeater, 806-824/851-869MHz,32 Channel,27dBm Panel DAS Alert Model: 1221-A DAS Annunciator Panel 1 Attenuator MECA Electronics 603-10-1 Type- N, DC-6GHz, 10dB Attenuator,5 Watts 1 Splitter Comba DC-R08- (N.America)(Passive)8 dB Directional 3 ON300C(XH) Coupler,698-2700 MHz, N-Female Connectors 300W and PIM less than -153dBc @ 2x43d8m. Splitter Comba DC-R05- (N.America)(Passive)5 dB Directional 3 ON3000(XH) Coupler,698-2700 MHz, N-Female Connectors 300W and PIM less than-153dBc @ 2x43dBm. Splitter Comba DC-R10- (N• .America)(Passive)10 dB Directional 1 ON3000(XH) Coupler,698-2700 MHz, N-Female Connectors 300W and PIM less than-153dBc @ 2x43dBm. Splitter Comba DC-R13- (N- .America)(Passive) 13 dB Directional 1 ON300C(XH) Coupler,698-2700 MHz, N-Female Connectors 300W and PIM less than-153dBc @ 2x43dBm. Created on 7/16/2020 Cross-Reference Project name: Twality MS Design company: Project creation date: 7/15/2020 Designer: Kern Argo 44 Mwa ;-*tiiitript,on SPT1 'Splitter Comba DC-R08- (N.America)(Passive) 8 dB Directional F1 ON300C(XH) Coupler, 698-2700 MHz, N-Female Connectors 300W and PIM less than -153dBc @ 2x43dBm. Corresponding datasheet: - DC-Rxx-ON300C(XH)-DS-0-0-3 SPT2 Splitter Comba DC-R05- (N.America)(Passive) 5 dB Directional F1 ON300C(XH) Coupler, 698-2700 MHz, N-Female Connectors 300W and PIM less than -153dBc @ 2x43dBm. Corresponding datasheet: - DC-Rxx-ON300M(XH)-DS-0-0-3 SPT3 Splitter Comba DC-R08- (N.America)(Passive) 8 dB Directional F1 ON300C(XH) Coupler, 698-2700 MHz, N-Female Connectors 300W and PIM less than -153dBc @ 2x43dBm. Corresponding datasheet: - DC-Rxx-ON300C(XH)-DS-0-0-3 SPT4 Splitter Comba DC-R10- (N.America)(Passive) 10 dB F1 ON300C(XH) Directional Coupler, 698-2700 MHz, N-Female Connectors 300W and PIM less than -153dBc @ 2x43dBm. Corresponding datasheet: - DC-Rxx-ON300C(XH)-DS-0-0-3 Created on 7/16/2020 Page 1/2 Type 4 Ate, � �� {•� l4S"3e'�a� ........ Sa.._'al su'3C model_a.. a..Destir`L�^{.0> SPT5 Splitter iComba IDC-R13 (N.America)(Passive) 13 dB F1 ON300C(XH) Directional Coupler, 698-2700 MHz, N-Female Connectors 300W and PIM less than -153dBc @ 2x43dBm. Corresponding datasheet: - DC-Rxx-ON300C(XH)-DS-0-0-3 SPT6 Splitter Comba DC-R05- (N.America)(Passive) 5 dB Directional F1 ON300C(XH) Coupler, 698-2700 MHz, N-Female Connectors 300W and PIM less than -153dBc @ 2x43dBm. Corresponding datasheet: - DC-Rxx-ON300M(XH)-DS-0-0-3 SPT7 Splitter Comba DC-R08- (N.America)(Passive) 8 dB Directional F2 ON300C(XH) Coupler, 698-2700 MHz, N-Female Connectors 300W and PIM less than -153dBc @ 2x43dBm. Corresponding datasheet: - DC-Rxx-ON300C(XH)-DS-0-0-3 SPT8 Splitter Comba DC-R05- (N.America)(Passive) 5 dB Directional F2 ON300C(XH) Coupler, 698-2700 MHz, N-Female Connectors 300W and PIM less than -153dBc @ 2x43dBm. Corresponding datasheet: - DC-Rxx-O N 300 M(XH)-DS-0-0-3 Total of S Parts Created on 7/16/2020 Page 2/2 /!M?LIFJ O WIRELESS SOLUTIONS,INC Submittal No. Emergency Responder Radio Coverage System Twality Middle School Portland Electrical Construction, Inc. Contract#:486-600 AWS Project#: 10322 TAB # 7 Distributed Antenna System Specification Section: Emergency Responder Radio Coverage System Para. No. 7.1 Drawings for Donor Antenna and Grounding Shall be included in Shop Drawings ,y':„u (�• ': ' AMPLIFlEO VVIR�LSi!lOLYTN]llf,NC WEATHERPROOF GOOSENECK ANTENNA PIG TAIL 0) DONOR ANTENNA COPPER PIPE CLAMP 1777- i i WITH GROUND CONNECTOR METAL BRACKETS, FASTEN TO WALL,TYP. -T' PARAPET WALL 1/2 OUTDOOR RATED COAX TO POLYPHASER 200F III- MAST,1-1/2"STEEL PIPE SCHEDULE 40 VEL 51 16"%1B'X4" 2 AWG SOLID TINNED COPPER WIRE JUNCTION BOX FIL7 TD COPPER PIPE CLAMP 1/2'CABLE GROUNDING KIT `. 2AWG SOLID TINNED COPPER WIRE .=il I� TO BUILDING GROUND LIGHTING SUPRESSOR II (POLYPHASER( GROUNDING TERMINAL 1/2"PLENUM RATED 2"CONDUIT COAX TO BDA NOTES: 1.LIGHTNING PROTECTION TO DONOR ANTENNA IN ACCORDANCE WITH NFPA 780 TO COMPLY WITH NFPA 72:26.6.2.3.3 2.ANTENNA INSTALLATION SHALL MEET THE SOUTH FLORIDA BUILDING CODE FOR WIND SURVIVABILITY AT NO LESS THAN 132 MPH DAS TYP. DONOR ANTENNA, LIGHTNING SUPRESSION AND GROUNDING DETAILS NOT TO SCALE I Amplified Wireless Solutions, Inc. 5760 SE Gaitgill Court Milwaukee, Or 97267 1 c.))• AMPLIFIED WIRELESS SOLUTIONS.INC Submittal No. Emergency Responder Radio Coverage System Twality Middle School Portland Electrical Construction, Inc. Contract#:486-600 AWS Project* 10322 TAB # 8 Distributed Antenna System Specification Section: Emergency Responder Radio Coverage System Para. No. 8.1 Product Data Sheets Donor Antenna/Indoor Antenna Donor Antenna Cable/Indoor Plenum Rated Cable Male Cable Connector/Female Cable Connector Lightning Protector 24 Hour Battery Backup 700/800 Amplifier Coax Bias-Tee/DAS Annunciator Panel 746-896 MHz Yagi Antenna (11 dBi) 4rir, Model Numbers 4 - CSFAYi746-896/11 Frequency P.ii ;(-: - 746-896 MHz I - I I Features & Benefits • 11 dBi Gain • 8 Elements • Hermetically Sealed Driven Element • Rugged Lightweight Design • Stainless Steel Hardware 746-B96 MHz Yagi Antenna.11 dBi • Broad Bandwidth Radiation Patterns ..,.. \-. ..1-1o4.-.-. .. illittNP.O._,Alit - :::.1 ,1i,,L4triMi „. t it,..;:••=i , . ' T:.,:.-:-.• littiriV, . XI Ho itti,,ti tiii Electrical Specifications Mechanical Specifications Gain al dBi Number of Elements VSVI: < Al Rated W.--i -.-i.( i-..i 134 mph(200 kpn) Dimensions 33.1 x 8 x 2.2 in Maximtcr HA :, ,A,-,-,.c :A,,.,,,:,<I, Antenna Welgz, 1.76 lbs Electrical Downt)l: 0 Mounting Fia'r:',,, - LI Bo.t Front-back Ratio >16 dB l'irluciec Mounting Hard-ward Fits 1 7/8"CD Pipe Specifications subject to mange inninom notice WEBTE Copyright. 2015 tti 2015 by Wesfell,Inc.Ail Rights Reserved,Westeil.ClearLink,Kentrox,and Optima WESTELL.COM Management System are registered trade-narks of',Neste,inc.At other names are trademarks of their respective owners information is correct at time of printing and is subject to change without notice. Wester,Inc is an Equal Opportunity/Affirmahve.Achon employer. 0:30 200218 rA 01/12/1S 1 Product Specifications COMMSC( PE® -, CELLMAX-C)-CPUSE Cell-Max'"' Omni In-building Antenna, 698-960 MHz and 1710-2700 MHz This product is part of the CommScope Wired for Wireless® Solution Electrical Specifications Frequency Band, MHz 698-800 800-960 1710-2700 Gain, dBi 2.0 2.0 5.0 Beamwidth, Horizontal, degrees 360 360 360 VSWR I Return Loss, dB 1.8 110.9 1.5 114.0 1.5 114.0 Input Power per Port, maximum, watts 50 50 50 Polarization Vertical Vertical Vertical Impedance 50 ohm 50 ohm 50 ohm General Specifications Antenna Type Omni Application Indoor Operating Frequency Band 1710 - 2700 MHz I 698 -- 960 MHz Brand Cell-MaxT`" Mount Type Thru-hole ceiling mount (optional) Package Quantity 1 Pigtail Cable KSR195, plenum rated Mechanical Specifications Color White Pigtail Length 315.0 mm I 12.4 in Radome Material ABS, UV resistant RF Connector Interface N Female Environmental Specifications Operating Temperature -40 °C to +60 °C (-40 °F to +140 °F) Relative Humidity Up to 100% Dimensions Height 85.00 mm I 3.35 in Outer Diameter 186.0 mm I 7.3 in Net Weight 0.3 kg I 0.7 lb Packed Dimensions Height 135.00 mm I 5.31 in Length 195.0 mm I 7.7 in Width 195.0 mm I 7.7 in Shipping Weight 0.4 kg I 0.9 lb ©2017 CommScope,Inc.All rights reserved.Al trademarks identified by O or T" are registered trademarks,respectively,of CommScope. All specifications ore subject to change without notice.See www.commscope.corn for the most current information.Revised:December 19, page 1 of 2 2016 Apr',I 3, 2017 Product Specifications COMMSC( PE® CELLMAX-OCPUSE Outline Drawing 186.4t2 85±2 1111111.71.119 42±2 _ r 315±20 T 14t2 e18±2 50±2 y ' Regulatory Compliance/Certifications Agency Classification RoHS 2011/65/EU Compliant by Exemption ISO 9001:2008 Designed, manufactured and/or distributed under this quality management system 0 ©2017 CommScope,Inc.All rights reserved.All trademarks identified by®or TM are registered trademarks,respectively,of CommScope. All specifications are subject to change without notice.See www.commscope.com for the most current information.Revised:December 19, page 2 of 2 2016 April 3, 2017 PRODUCT DATASHEET RADIO FREQUENCY SYSTEMS 4 LCF12-50J 1/2" CELLFLEX® Low-Loss Foam-Dielectric Coaxial Cable CELLFLEX®1/2"low loss flexible cable FEATURES/BENEFITS 0 Low Attenuation The low attenuation of CELLFL EXe coaxial cable results in highly efficient signal transferin your RF system. Q Complete Shielding The solid outer conductor of CELLFLEX5 coaxial cable creates a continuous RFUEMI shield that minimizes system interference. Q Low VSWR 112"CELLFLEX®Low-Loss Foam Special low VSWR versions of CELLFLEXt°coaxial cables contribute to low system noise, Dielectric Coaxial Cable OOutstanding Intermodutation Performance CELLFLEX°'coaxial cable_s solid inner and outer conductors virtually eliminate intermods. Intermodulation performance is also confirmed with state-of-the-art equipment at the RFS factory. Q High Power Rating Due to their low attenuation,outstanding heat transfer properties and temperature stabilized dielectric materials,CELLFLEX"4 cable provides safe long term operating life at high transmit power levels. O Wide Range of Application Typical areas of application are:feedlines tar broadcast and terrestrial microwave antennas,wireless cellular,PCS and ESMR base stations,cabling of antenna arrays,and radio equipment interconnects. Technical Features APPLICATIONS Applications OEM jumpers,Main feed transitions to equipment,GPS lines STRUCTURE Cable Type Foam-Dielectric,Corrugated Size 1/2" Jacket Option Black Inner Conductor mm(in) 4.8(0.19)Copper-Clad Aluminum Wire Dielectric mm(in) 11.9(0.47)Foam Polyethylene Outer Conductor mm(in) 13.8(0.54)Corrugated Copper Jacket mm(in) 15.8(0.62)Polyethylene,PE ELECTRICAL SPECIFICATIONS Impedance D 50+/-1 Maximum Frequency GHz 8.8 Velocity % 88 Capacitance pF/m(pF1ft) 76(23.2) Inductance pH/m(pt/ft) 0.19(0.058) Peak Power Rating kW 38 RF Peak Voltage Volts 1950 Jacket Spark Volt HMS 8000 Inner Conductor do Resistance 0/1000 m(0/l000 ft) 1.57(0.48) Outer Conductor do Resistance 0/1000 m(0/1000 It) 2.7(0.82) Return Loss(VSWR)Performance Standard Maximum Return Loss dB(VSWR) Contact RFS for your VSWR performance specification for your required frequency band. Phase Stabilized Phase stabilized and phase matched cables and assemblies are available upon request. Temperature&Power Standard • MECHANICAL SPECIFICATIONS Cable Weight kg/m(Iblft) 0.2(0.14) Minimum Bending Radius,Single Bend mm(in) 70(3) Minimum Bending Radius,Repeated Bends mm(in) 125(5) Bending Moment Nm(Ib"ft) 6.5(4.79) Tensile Strength N(lb) 1100(247) Recommended/Maximum Clamp Spacing m(ft) 0.6/1 (2/3.25) LCF12.50J REV:Et REV DATE:15.Aug.2013 www.rfsworld.com All values nominal unless tolerances provided,information contained in the present datasheet is subject to confirmation at time of ordering Page 1 of 2 PRODUCT DATASHEET RADIO FREQUENCY SYSTEMS 4 LCF12-50J �''e � r1 Moss 1/2" CELLFLEX® Low-Loss Foam-Dielectric Coaxial Cable ATTENUATION AND POWER RATING Frequency Attenuation Power TESTING AND ENVIRONMENTAL MHz dBi100m dB1100ft kW Fire Performance Halogene Free 0.5 0.15 0.045 38.00 Installation Temperature -40 to 60(-40 to 140)`C(`F) 1 0.21 0.084 38.00 Storage Temperature -70 to 85(-94 to 185)'C('F) 1.5 0.26 0.079 32.90 Operation Temperature -50 to 85(-58 to 185)'C(°F) 2 0.30 0.091 28.50 10 0.67 0.204 12.70 20 0.95 0.29 8.93 30 1.17 0.356 7.26 50 1.51 0.462 5.63 88 2.02 0.616 4.21 100 2.16 0.658 3.93 108 2.24 0.684 3.79 150 2.66 0.81 3.19 174 2.87 0.875 2.96 200 3.08 0.94 2.76 300 3.81 1.16 2.23 400 4.43 1.35 1.92 450 4.71 1.44 1.80 500 4.98 1.52 1.71 512 5.04 1.54 1.69 600 5.48 1.67 1.55 , 700 5.95 1.81 1.43 750 6.17 1.88 1.35 800 6.39 1.95 1.33 824 8.49 1.96 1.31 894 6.78 2.07 1.25 900 6.80 2.07 1.25 925 6.90 2.10 1.23 960 7.04 2.15 1.21 1000 7.20 2,19 1.18 1250 8.12 2.48 1.05 1400 8.64 2.63 0.983 1500 8.97 2 73 0.947 1700 9.61 2.93 0.884 1800 9.91 3.02 0.857 2000 10.50 3.20 0.809 2100 10.80 3.29 0.787 2200 11.10 3.36 0.765 2400 11.60 3.54 0.732 2500 11.90 3.62 0.714 2600 12.20 3.70 0.696 2700 12 40 3.78 0.685 3000 13.20 4.01 0.644 3500 14.40 4.38 0.59 4000 15.50 4.72 0.548 5000 17.60 5.37 0.483 6000 19.60 5.97 0.433 7000 21.40 6.54 0.397 8000 23.20 7.07 0.366 8800 24.60 7.49 0.345 Attenuation at 20°C(68°F)cable temperature; tolerance+l-5%max.;Mean power rating at 40°C(104°F)ambient temperature External Document Links Notes Phase stabilized versions available upon request. LCF12-50J REV:D REV DATE:15-Aug.2013 www.rfsworld.com All values nominal unless tolerances provided;Information contained In the present datasheet is subject to confirmation at time of ordering Page 2 of 2 PRODUCT DATASHEET RADIO FREQUENCY SYSTEMS 4 ICA12-50JPL 1/2" ClearFill®Line Plenum-Rated Air-Dielectric Coaxial Cable for In- Building Applications ClearFill®Line 1/2"low loss air dielectric cable.Plenum-rated,CMP FEATURES/BENEFITS O Supports Multiple RF Signals Q Complete Shielding --... The solid outer conductor of the ClearFill®Line coaxial cable creates a continuous RR/EMI shield that minimizes system interference. OOutstanding Intermodulatlon Performance RFS coaxial cable's solid inner and outer conductors virtually eliminate interrrods.Intermodulation performance is also confirmed with state-of-the-art equipment at the RFS factory. 1/2"Plenum-Rated In-Building Cable 0 Wide Range of Applications Typical areas of application are:feedlines for plenum-space installations within occupied buildings or structures. Technical Features APPLICATIONS Applications Plenum In-Building STRUCTURE Cable Type Air-Dielectric,Corrugated Size 1/2" Inner Conductor mm(in) 4.8(0.19)Copper-Clad Aluminum Wire Dielectric mm(in) 11.8(0.454)Extruded Polyethylene Outer Conductor mm(in) 13.8(0.54)Corrugated Copper Jacket mm(in) 15.93(0.627)Plenum Rated/color blue ELECTRICAL SPECIFICATIONS Impedance O 50+/-1 Maximum Frequency GHz 6 Velocity °/, 91 Capacitance pF/m(pF/ft) 76(23.2) Inductance NH/m(pH/ft) 0.19(0.058) Peak Power Rating kW 40 RF Peak Voltage Volts 2000 Jacket Spark Volt RMS 8000 Inner Conductor dc Resistance O/1000 m(0/1000 ft) 1.48(0.45) Outer Conductor dc Resistance 0/1000 m(f2/1000 ft) 1.9(0.58) 24.3(1,13)@ 698-960 MHz Return Loss(VSWR)Performance 24.3(1.13)@ 1700-2155 MHz 18 11-29)@ 44005900 MHz Maximum Return Loss dB(VSWR) 19(1.25)In other specified bands Temperature&Power High Power Rating MECHANICAL SPECIFICATIONS Cable Weight kg/m(lb/ft) 0.37(0.25) Minimum Bending Radius,Single Bend mm(in) 125(5) Minimum Bending Radius,Repeated Bends mm(in) 254(10) Bending Moment Nm(Ib'ft) 4.1(3) Tensile Strength N(lb) 1112(250) Recommended/Maximum Clamp Spacing m(ft) 0.5/0-9(1.8/3) ICA12-50JPL p:Et`:G REV DATE:21-Jun.2016 www.rfsworld.com All values nominal unless tolerances provided;information contained in the present datasheet is subject to confirmation at lime of ordering Page I of PRODUCT DATASHEET RADIO FREQUENCY SYSTEMS -, ICA12-50JPL Illimile 1/2" ClearFill®Line Plenum-Rated Air-Dielectric Coaxial Cable for In- Building Applications ATTENUATION AND POWER RATING Frequency Attenuation Power TESTING AND ENVIRONMENTAL MHz dB/100m dB/100ft kW Fire Performance Flame Retardant,Plenum Rated 0.5 0.15 0.045 40.0u Flame Retardant Jacket Specifications Meets/Exceeds Steiner Tunnel Test Method UL 910,NEC 820• 1 0.21 0.064 34.30 53(a)CMP,NFPA-262. 1.5 0.26 0.079 27.90 Regulatory Compliance NEC Article 800 Communication Circuits 2 0.30 0.091 24.20 ETL Listed to UL444 10 0-67 • 4.204 70.70 Canadian CSA C.22.2/FT6 20 0.95 29 j. Installation Temperature -20 to 60(-4 to 140)'GCE) 30 1.17 0.356 6.15 Storage Temperature -40 to 85(-40 to 185)°G(°F) 50 1.52 0.465 4.74 Operation Temperature -40 to 85(-40 to 185)°C(°F) 88 2.04 0.622 3.53 100 2.18 0.665 3.30 108 2.27 0.692 3.17 150 2.70 0.822 2.67 174 2.92 0.889 2.47 200 3.14 0 957 2.30 300 3.89 1.19 1.85 400 4.54 1.39 1.59 450 4.84 1.48 1.49 • 500 5.13 1.56 1.41 512 • 5.19 1.58 1.39 600 5.66 1.73 1.28 700 6.16 1.88 1.17 750 6.40 1.95 1.13 800 6.64 2.02 1.09 824 6.75 2.06 1.07 894 7.06 2.15 1.02 900 7.08 2.16 1.02 925 7.19 2.19 1-01 960 7.34 2.24 0.986 1000 7.51 2.29 0.964 1250 8.52 2.60 0.851 1400 9-08 2.77 0.799 1500 9.45 2.88 0.768 1700 10.20 3.09 0.713 1800 10.50 3.20 0.693 2000 11.20 3.40 0.65 2100 11.50 3.50 0.633 2200 11.80 3.59 0.618 l 2300 12.10 3.69 0.603 2400 12.40 3.78 0.588 2500 12.70 3.87 0 575 2600 13.00 3.96 0.562 2700 13.30 4-05 0.549 3000 14.10 4.31 0.519 3500 15.50 4-73 0.474 3600 15.80 4.81 0.465 4000 16.80 5.13 0.438 4500 18.10 5.51 0.408 5000 19.30 5.88 0.363 5500 20.40 6.23 0.364 6000 21.60 6.58 0.344 Attenuation at 20°C(68°F)cable temperature; tolerance+/-5%max.;Mean power rating at 40°C(104°F)ambient temperature External Document Links Notes ICA12-50JPL REV:S REV DATE:21.Jun.2016 www.rfsworld.com All values nominal unless tolerances provided;information contained in the present datasheet is subject to confirmation at time of ordering Page 2 of 2 4 Ventev-3' DAS jumper using RG-142 plenum cable N M;N M TESSCO SKU : 364731 Mfg Part#: RGS142NMNM-3 ity/UOM : 1 EACH UPC: 888063647390 For wireless networking professionals demanding value and availability, Ventev's 3' N Male; N Male antenna extension cable uses RG-142 series Low Loss/RG type cable and is terminated w/high performance 50 Ohm RF connectors and weatherproofed w/heat shrink. Built by a manufacturer- certified technicians,this jumper is 100%tested prior to shipment. Built by a manufacturer-certified technicians,this antenna extension is tested prior to shipment for 100 percent customer satisfaction and guaranteed performance. RF Connectors N Male/ N Male Cable Length 3 ft Mfg. Warranty 2 Years Wireless Solutions Jumpers are built by manufacturer certified technicians. All jumpers using crimp connectors include heatshrink. Each jumper is tested prior to shipment for 100%customer satisfaction and guaranteed performance. PRODUCT DATASHEET RADIO FREQUENCY SYSTEMS -3 NM-LCF12-D01 /rr~i `ar Maim N Male Connector for 1/2" Coaxial Cable, OMNI FITTM Premium, Straight, Polymer claw and compression sealing OMNI FITTM high performance connectors are designed for use with both CELLFLEX®(copper)and CELLFLEX©Lite(aluminium)cables.They are designed specifically to provide the highest quality connector- cable interface while simplifying and speeding up connector attachment.All RFS connectors are fully tested for mechanical and electrical compliance to industry specifications. The 7.16 connector is the most rugged RF connection meeting all requirements even under the most severe s' environmental conditions.Sealing against outer conductor and jacket by means of the polymer claw and 360 \ ' compression fit Multifunctional,self-lubricating HighTech polymer assembly locks on cable corrugation, C { avoids electrochemical potential differences and compression-fits to the jacket. FEATURES!BENEFITS OMNI FIT"'Premium Ultra high PIM performance i.e.reduced interference leading to high customer satisfaction Connectors Technical Features GENERAL SPECIFICATIONS Transmission Line Type Coaxial Cable Cable Size 1/2" Cable Type Foam Dielectric Model Series LCF12-50 Series Connector Interface N Connector Type OMNI Fit'""PREMIUM Straight Sealing Method Polymer claw*360°Compression Gender Male ELECTRICAL SPECIFICATIONS Nominal Impedance Ohm 50 3rd Order IM Product @ 2x20 Watts dBc -156;typical-162 Maximum Frequency GHz 6.0 VSWR,Return Loss VSWR(dB) 0<f s 1.0 GHz:1.02(40.0) 1.0<f 5 2.7 GHz:1.03(36.6) 2.7<f 5 3.7 GHz:1,09(30.7) MECHANICAL SPECIFICATIONS Plating Outer/Inner NiTin/Silver Length mm(in) 64.05(2.52) Outer Diameter mm(in) 29(1.14) Weight kg(lb) 0,11 (0.24) Inner Contact Attachment Basket Outer Contact Attachment 360°camping ACCESSORIES Wrench size front mm(in) 18 Wrench size rear mm(in) 26 Trimming Tool TRIM-SET-L12-D01 TRIM-LCF12-D01-A TESTING AND ENVIRONMENTAL Waterproof Level IP68 NM-LCF12-D01 REV:F REV DATE:29.Feb.2016 www.rfsworid.com nnennnoe can reed in the present datashee!is sub;eci to conf n-ration at time of c.dohng Page 1 of 2 PRODUCT DATASHEET RADIO FREQUENCY SYSTEMS164 4 NM-LCF12-D01 * ;; C I e =_ _ "" N Male Connector for 1/2" Coaxial Cable, OMNI FITTM Premium, Straight, Polymer claw and compression sealing ,,.__ 64,10 frig s ___ - -. II. r, I lII ill 11 O f alli iii TI III ___0-... Cut NM-LCF12-D01 DRW.PNG View NM-LCF12-D01 DRW.PNG External Document Links Notes Installation Instruct:on NM-LCF12-D01 REV:F REV DATE:29.Feb.2016 www.rfsworld.com ,,,ec in tre rreSent daaah,eet s sJbject to cont'madon a,.t^'e of ordonrii Page 2 of 2 PRODUCT DATASHEET RADIO FREQUENCY SYSTEMS IMifiesamo 4 NF-LCF12-D01 N Female Connector for 1/2" Coaxial Cable, OMNI FITTM Premium, Straight, Polymer claw and compression sealing OMNI FIT""high performance connectors are designed for use with both CELLFLEX®(copper)and CELLFLEX®Lite(aluminium)cables.They are designed specifically to provide the highest quality connector- cable interface while simplifying and speeding up connector attachment.All RFS connectors are fully tested for mechanical and electrical compliance to industry specifications. The 7.16 connector is the most rugged RF connection meeting all requirements even under the most severe environmental conditions.Sealing against outer conductor and jacket by means of the polymer claw and 360` compression fit.Multifunctional,self-lubricating HighTech polymer assembly locks on cable corrugation, avoids electrochemical potential differences and compression-tits to the jacket. FEATURES/BENEFITS OMNI FITT*Premium 0 Ultra high PIM performance Le.reduced interference leading to high customer satisfaction Connectors Q Two-piece design i.e.visual inspection of interlocking leads to improved installation security O OMNI FIT'",concept i.e.streamlined order management and reduced stock level O Watertight sealing in mated and unmated condition,i.e.reduced efforts during installation and improved security during operation Q Unique NiTin plating i.e.extreme resistance against corrosion even under hardest climatic and environmental circumstances 0 Multi-thread(Tristan)design i.e simplified and accelerated tightening process Q RoHS(EU)and CRoHS(China)compliant i.e.can be used on a global basis Technical Features GENERAL SPECIFICATIONS Transmission Line Type Coaxial Gable Cable Size 1/2" Cable Type Foam Dielectric Model Series LCF12-50 Series Connector Interface N Connector Type OMNI FIT'"PREMIUM Straight Sealing Method Polymer claw+360°Compression Gender Female ELECTRICAL SPECIFICATIONS Nominal Impedance Ohm 50 3rd Order IM Product @ 2x20 Watts dBc -156;typical-162 Maximum Frequency GHz 6.0 VSWR,Return Loss VSWR(dB) 0<f s 1.0 GHz:1.02(40.0) 1.0<f s 2.7 GHz:1.03(36.6) 2.7<f<_3.7 GHz:1.06(30.7) MECHANICAL SPECIFICATIONS Plating Outer/Inner NiTin/Silver Length mm(in) 57.1(2.25) Outer Diameter mm(in) 26(1.02) Weight kg(lb) 0.1 (0.22) Inner Contact Attachment Basket Outer Contact Attachment 360°clamping ACCESSORIES Wrench size front mm(in) 27(1 1/16) Wrench size rear mm(in) 27(1-1/16) Trimming Tool TRIM-SET-L124301 TRIM-LCF12-D01-A TESTING AND ENVIRONMENTAL Waterproof Level IP68 NF-LCF12-D01 REV:F REV DATE:29.Feb,2018 www.rfsworld.com All nor-anon cortelneo in the present detached -s subject to mntrr..aeon zt eme of ordering Page 1 of 2 PRODUCT DATASHEET RADIO FREQUENCY SYSTEMS iilail 4 NF-LCF12-001 N Female Connector for 1/2" Coaxial Cable, OMNI FITTM Premium, Straight, Polymer claw and compression sealing � 57,10 y r �te.. -,:�----, I -11 • /� . 1 , iI =..1; ..1u_j...____ ti„.." *„.4 � aj y ..........1i i..... S' Cut NF-LCF12-001 DRW.PNG View NF-LCF12-D01 DRW.PNG External Document Links Notes Installation Instruction NF-LCF12-D01 REV:F REV DATE:29.Feb.2015 www.rtsworid.com ^atian ca^a red in the p-osent dslashee's sublect is confirmation.at Time o!order,ng ?aye 2 at 2 ItIlLEKr.VIE°PE ,':TER= These commodities or technology are exported from the REVISIONS OF POLVPHASER CORPORATION. THE INFORMATION REV LTR DATE ENG MKTG Q.A. lS NOT TO BE COPED, REPRODUCED, REVEALED TO U.S. in accordance with the Export Administration OR APPRDPRATEB BY OTHERS VSRHOOT TIE EXPRESS .ATHEN CONSENT OF POLYPHASE*OORPERATION. Regulations. Diversion contrary to U.S.law prohibited. B 05/18/07 sk KCB CP LJ 3.65 [92.7] 11 M8 X 1.25-6H NUT --. ( ®r_� #3 O `® O i SURGE L 2X .31 [8.0] C+C7X� CGXZ+36NFNF-A O f[2 0.9] ` L 400MHz to 1200MHz LISTED ?blyPhaser 'q EQUIPMENT 1.67 / [42.4] MAXIMUM CHARACTERISTICS OC:15) ® H APPLICATION: _MI NMWEATHERIZED, FLANGE OR BULKHEAD MOUNT _ ,.. ..,. FREQUENCY RANGE: 400MHz TO 1200MHz ... - VSWR: 51.1:1 OVER FREQUENCY RANGE INSERTION LOSS: _ - — 50.1dB OVER FREQUENCY RANGE POWER: _ - 300 WRMS AVERAGE 2X r-1 I-i TURN ON: —► f +40Vdc .25 [6.4] fi' TURN ON TIME: 4ns FOR 2kV/ns .70 [17.7] (01A 1.40 [35.7] MAX.SURGE: 20kA IEC 61000-4-5 8/20ps WAVEFORM U.S.PATENT THROUGHPUT ENERGY. 6,785,110 (kw l 51500NJ FOR 3kA, 8/20ps WAVEFORM USER VOLTAGE: — \ / .63 [116.0] +36Vdc MAX \ _ _�"../i) USAGE CURRENT: \ ' S4.0A CONTINUOUS RELATIVE HUMIDITY: .63 [15.9] TO 95% 1 ENVIRONMENTAL: 2.82 [71.6] MEETS IEC 60529 IP67 CUSTOMER APPROVAL: DATE: MEETS BELLCORE #TA—NWT-000487 ALL DIMENSIONS SHOWN ABOVE ARE FOR REFERENCE ONLY. PROCEDURE 4.11, WIND DRIVEN (120MPH) OM RAIN INTRUSION TEST. R. SWART 02/07/06 rsfer TEMPERATURE: NECK ENGINEER DM-50'C TO +SSAC STORAGE/OPERATING R. DUNNING 04/24/06 oon P.O.hMs Fqj stRr 89423 TEl 775-782-2511 FAX 775-782-4476 KKKNEER DATE . BARTEL 04/24/06 4CGXZ+36NFNF-A MARKETING DATE CUSTOMER PRINT S. DOTTER 04/24/06 auum DEPT + ATE CAGE CODE FILE NANE SCALE SHEET R. MATHEUS 04/24/06 611141 —C1 1/1 1 1 OF 1 NFPA-Compliant (� DAS alert Public Safety Radio Enhancement System NN PA Monitoring Unit and Annunicator Panel MEMBER -*I DASalert Models 1221 -A & 1221-B Meets NFPA-72 (2010, 2013 & 2016) and current NFPA-1 21 codes for a Dedicated Annunciator and Monitoring Panel Displays Status of: • BDA • Donor Antenna TWO-WAY RADIO • AC Power BOOSTER STATUS • Battery Capacity GREEN OK • Battery Charger B System Status OM BLLUEUE-COMM FAULT •AC POWER Includes Form-C relay contacts to interface SYSTEM with any fire alarm system AMPLIFIER Monitors communications link for integrity ANTENNA - Includes independent circuitry to check BATTERY CHARGER antenna, AC power, battery capacity, charger BATTERY CAPACITY and overall system status �, Mates with or augments monitoring of any PUSH .oTEs, fi alert BDA, antenna, charger, battery or UPS Low cost, easy to install and program Small size NEMA-4: 10"H x 8"W x 4"D Backed up by internal battery (included) Model 1221-A Monitor and Annunciator Panel Typical Application BOA Outdoor Antenna Bias-T BOOSTER O SiAi FATS" AC POWER (No1 Ndllded) e0ER U`v -ANTENNA eN , _ N SYSTEM eNd (Nottas-T el .CHARGER t — •BATTERY 120 VAC -COMM FAULT Fault Outputs to + Fire Alarm System 24-Hour Battery Backup To Outdoor Antennas Code Requirements The current edition of the NFPA 1221 fire code (shown below) and NFPA-72 (2010, 2013 &2016) describe the requirements for monitoring the performance of Public Safety in-building two-way Radio Enhancement Systems with a dedicated panel. This panel is required to be located in the fire command center but some jurisdictions require that it be located in the same room as the Radio Enhancement System. These panels are designed to meet all these requirements. In addition, Model 1221-A contains additional circuitry to enhance and augment the alarm sensing capabilities of the BDA and the DAS backup emergency power supply if they are not code compliant. Fault Signaling Relays Some DAS components are not configured with the appropriate Form-C alarm relays that can interface properly with all Fire Alarm Systems. This unit provides these alarm relays. They can be programmed to mate with any Fire Alarm System with their `normally OFF' or 'normally ON' states for any 'fail safe' convention that is required by the Fire Alarm System. Enclosure & Power Requirements The enclosure is NEMA-4 rated consistent with the other requirements of the code and a small backup battery (included) inside the panel provides over 24 hours of service if this is needed to supplement loss of primary power. Primary power is provided by an AC socket-mounted 15 VDC power supply (included). Communication Integrity Per code, fault detection cables between the Radio Enhancement System and the panel are monitored to detect open circuits or short circuits to ground. If this condition is detected the panel will trigger a fault alarm to the Fire Alarm System signaling the loss of communications integrity. Antenna Monitoring (Model 1221-A) If the bi-directional amplifier (BDA) in the Radio Enhancement System does not have the capability to monitor donor antenna faults, the panel can provide this by adding external Bias-Ts in line with the antenna. The panel will detect common faults such as open circuits, short circuits, disconnected or severed cables leading to the antenna without impacting the RF performance of the system. Installation This panel provides an economical easy-to-install solution to meeting the code requirements and the flexibility to interface with and augment, if required, the fault detection and alarm signaling capabilities of a large variety of standard components used in these systems. The small size and light-weight enclosure can be wall-mounted into any installation. Model Comparison Module Model 1221 A Model 1221 B Annunciator System with FORM-C relay ✓ ✓ outputs to main fire alarm installation Alternative Donor Antenna Failure Sense Module(Bias-T fittings not included) Alternative DAS Battery Capacity Sense Module Alternative DAS Battery Charger Failure Sense Module ✓ Annunciator System Backup Battery(8 Ahr) ✓ ✓ Annunciator System Power Supply and Battery Charger ✓ ✓ Price $1499.00 $999.00 Models 1221A and 1221B Module Descriptions Annunciator System with FORM-C relay outputs to main fire alarm system (Models 1221A & Model 1221B) This is the basic annunciator system that accepts ALARM signaling from external relays contained in the DAS equipment. The system accepts relay signaling indicating the following alarms: • Loss of AC Power • Amplifier Problems • Antenna Problems • DAS Battery Capacity below 30% • DAS Battery Charger Fail • Communications Faults • Summary System Alarm The annunciator system provides FORM-C dry relay contacts to provide alarm signaling with any fire alarm installation. The system will operate with DAS installations that include multiple amplifiers, antennas and power sources, and includes circuitry to detect communications faults (open or short circuits) with the DAS equipment. Annunciator System Backup Battery Both models are shipped with an 8 Ahr rechargeable SLA battery that mounts inside the enclosure to provide over 24 hours of backup power. Annunciator System Power Supply and Charger Both models are shipped with an external 15 VDC power supply and battery charger that can be connected to any 120 VAC power outlet. The battery charger includes indicators that show the health of the panel's backup battery. The need to replace this battery can be signaled to the building's main fire alarm system. Alternative Donor Antenna Failure Sense Module (Model 1221-A only) This module provides a means of detecting open circuit, short circuits, disconnected, severed or lose connector problems in the antenna feed from the donor. This circuitry utilizes external bias-T fittings (not included). Multiple antennas can be connected in parallel to the same monitoring port. Model 1221A should be used if your amplifier or other components in your installation do not have the means of detecting donor antenna problems. Alternative DAS Battery Capacity Sense Module (Model 1221-A only) If your installation has a backup battery to provide emergency DAS power in the event of an AC power failure it must be monitored to detect when it has less than 30 % capacity left to power the system when primary power is lost. Model 1221A should be used if your emergency power unit does not have this capability. Alternative DAS Battery Charger Failure Sense Module (Model 1221-A only) If your installation has a backup battery to provide emergency DAS power in the event of an AC power failure, the battery charger must be monitored to detect if it has failed or is degraded. Model 1221A should be used if your charger unit does not have this capability. Excerpted from NFPA 2012 (2016 Edition): Similar requirements in NFPA-72 (2010, 2013, 2016) Standard for Installation,Maintenance,and Use of Emergency Services Communications System 9.6.13.2 Dedicated Panel. (1) A dedicated monitoring panel shall be provided within the fire command center to annunciate the status of all RF emitting devices and system component locations. The monitoring panel shall provide visual and labeled indications of the following for each system component and RF emitting device: (a) Normal ac power (b) Loss of normal ac power (c) Battery charger failure (d) Low battery capacity(to 70 percent depletion) (e) Donor antenna malfunction (f) Active RF emitting device malfunction (g) System component malfunction (2) The communications link between the dedicated monitoring panel and the two-way radio communications enhancement system must be monitored for integrity. Specifications Dimensions 10" x 8"x 4" Donor Antenna OK/Fail Weight 11.7 lbs Fault inputs Amplifier OK/Fail from Radio Charger OK/ Fail Enhancement System Battery Capacity OK/ Low AC Power AC Power ON /OFF System(Summary Alarm) Form C Dry Relay Amplifier(BDA) Analog Inputs Donor Antenna Sense DAS Battery+/- Outputs to Antenna Fire Alarm System Battery Charger Certifications UL: E194432, ETL: 4001276 Battery Capacity Communications Fault Power 15 VDC(180 ma)from supplied Power Supply www.DA . - i. .m I - 2•-1965 sales • DASalert.com Tappers, DN-x1FN series r', „ icr I . Public Safety,Unequal Splitters 147-960 MHz, N connectors Rev.A ♦ Split ratios from 100:1 to 2:1 — ♦ Covers all Public Safety bands: VHF, UHF,TETRA, and 700-900 MHz bands , • Low Specified PIM to ,,,oN- I • 500 W Avg Power Rating q-„ M'ap1 ,-.-- • Minimal RF Insertion Loss v"` I '�,. 6. • RoHS compliant " • High Reliability, IP67 „P' Frequency Bands: Bands specified below Microlab DN-x1FN series of Tappers unevenly split high power RF sig- Dissipative Loss: <0.1 dB(main line) nals in fixed ratios from 100:1 to 2:1 with minimal reflections or loss.The Power Rating: 500W avg.,3 kW Tappers cover VHF, UHF,TETRA, and 700 - 900 MHz Public Safety bands. peak The innovative asymmetric design ensures an excellent input VSWR and Impedance: 50f2 nominal coupling flatness across the specified bands. Intermod.(PIM): 161 dBc (2 tones at+43 dBm) The lightweight design allows easy attachment to a wall using the Environment: IP67,-35°C to+75°C supplied bracket. Designed with only a few solder joints and an air dielec- Connectors: N(f)trimetal tric,loss is minimized and reliability enhanced.See DN-x4 series for similar Housing Finish: Passivated Aluminum Tappers with broader bandwidth and multiple connector options. Weight,nom: 14 oz(380 g) Mounting: Bracket supplied Ratio,nom. Output Split Coupling to Branch arm,dB Input VSWR Max Model (dB Inequality Main/Branch 147-200 200-250 250-380 380-520 698-960 147-380 380-960 Number between Outputs) dB MHz MHz MHz MHz MHz MHz MHz 4 DN-31FN 2:1/3.0dB -1.8/-4.8 -6.3±0.7 -5.8±0.6 -5.4±0.6 -5.1±0.6 -4.8±0.S 1.40:1 1.30:1 1 DN-51FN 4:1/6.0dB -1.0/-7.0 -8.1±0.7 -7.6±0.6 -7.3±0.6 -7.0±0.6 -6.5±0.5 1.30:1 1.25:1 ON-71FN 10:1/10dB -0.4/-10.4 -11.0±0.8 -10.7±0.7 -10.3±0.7 -10.1±0.7 -9.9±0.5 1.20:1 1.20:1 DN-91FN 30:1/15dB -0.1/-15.1 -16.0±0.8 -15.6±0.8 -15.5±0.8 -15.2±0.8 -15.4±0.5 1.20:1 1.20:1 ON-01FN 100:1/20dB -0.1/-20.1 -20.3±1.0 -20.1±1.0 -20.0±1.0 -20.1±1.0 -20.1±0.8 1.20:1 1.20:1 4.02 [102.11] 2.01 75 1.25 [51.05] [REFS] [31.75] O t II�IIIuu IC il'il'll'iII!Ii 98 III1'. III°I[ O 1.60 [24.87] 'L./.\_.il [40.74] 'N'FEMALE 1 illMr CONNECTOR 3 PLACES Dimensions in inches[mm] Note:Specifications are subject to change without prior notification. olDeczo15 Microlab,A Wireless Telecom Group Company,25 Eastmans Road,Parsippany,NJ 07054 Tel:(973)386-9696•sales@microlab.fxr.com•www.microlab.fxr.com•Fax:(973)386-9191 CriticalPointTM Public Safety Bi-Directional Amplifier Comba RX-7W22 PS 700/800MHz BDA UL2524 Compliant Features • Digital/programmable utilizing FPGA • Supports public safety 700/800MHz in single band or dual band version • Supports P25 P1/P2 digital and conventional analog communications simultaneously • Supports FirstNetTM LTE band 14 • Single band versions include license to switch from original band to alternate band • Single band can be upgraded to dual band via license key °` t • Each band supports up to 32 narrow band filters(Class A) • Each band supports up to 3 wide band filters (Class B) • Channelized Auto Level Control (ALC)I Channelized uplink squelch (Class A) • NetProtect Uplink PA shutdown during no traffic periods to minimize noise being introduced to the network(Class A) `ae( • Built-in mandatory isolation test to prevent BDA oscillation • Auto shutdown with alarm upon oscillation detection • Web based GUI for intelligent configuration, SNMP supported • NFPA compliant dry contact alarms, NEMA 4X enclosure • Complies with NFPA 1221 2016/2019 edition, IFC 2018 Section 510 • FCC: PX8RX-7W22-A(Class A), PX8RX-7W22-B (Class B) • UL 2524 Compliant Specifications Electrical 7O0MHz 8O0MHz Total Output Power,Downlink dBm 33/27 33/27 Total Output Power,Uplink dBm 27 Maximum System Gain dB 90 90 Gain Adjustment Range(1dB step) dB 0-30 0-30 Pass Band Ripple,p-p dB <5 <5 Uplink Noise Figure dB <_5 5 5 Intermodulation dBm <-13 s-13 9kHzto1GHz dBm Spurious FCC Compliance FCC Compliance 1GHz to 12.75GHz dBm Maximum RF Input Power without Damage dBm 10 10 Maximum RF Input Power without Overdrive dBm -20 -20 ALC Range dB 60 60 Input VSWR <_1.5 5 1.5 Impedance f1 50 50 ®2019 Comba Telecom. All rights reserved information contained in this document is subject to confirmation at time of ordering. page 1 of 3 Specifications may differ depending on region and customers'requirements. DS-Control.0-0-2/0919 Class A Frequency Range,Uplink MHz US:788-805 806-824 Frequency Range,Downlink MHz US:758-775 851-869 Filter Bandwidth KHz 12.5/25/75+10MHz(LTE) 12.5/25/75 Number of Filters US:32+1 (LTE) 32 Bandwidth:12.5KHz 5 35 5 35 Bandwidth:25KHz µsec 5 27 5 27 System Group Delay Bandwidth:75KHz 5 15 5_ 15 Bandwidth: 10MHz(LTE) 5 6.5 NA Bandwidth: 12.5KHz a 80 @ filter center+75KHz a 80 @ filter center+75KHz Bandwidth:25KHz dBc a 80 @ filter center+75KHz a 80 @ filter center+75KHz Out-of-Band Suppression Bandwidth:75KHz a 80 @ filter center+200KHz a 80 @ filter center+200KHz a 45 @ filter edge+0.6MHz Bandwidth: 10MHz(LTE) a NA 60 @ filter edge+ 1MHz Class B Frequency Range,Uplink MHz US:788-805 US:806-817 Frequency Range,Downlink MHz US:758-775 US:851-862 Filter Bandwidth MHz 0.2-10 0.2-10 Number of Filters 3 3 System Group Delay sec 5 6.5 5 6.5 a 45 @ filter edge+0.6MHz a 45 @ filter edge+0.6MHz Out-of-Band Suppression dBc t 60filter edge+ 1MHz a 60 filter edge+1MHz © 9 @ 9 Mechanical Dimensions,H x W x D in(mm) 20.9 x 15.4 x 8.3(530 x 390 x 210) Weight(without bracket) lb(kg) 50.7(23) VDC -40—-58 Single band W 80(33dBm),75(27dBm) Power Consumption Dual band W 100(33dBm),90(27dBm) Enclosure Cooling Convection RF Connectors N-Female Test Port SMA,-22dB Maximum Input for Dry Contact Port 24VDC, 1A/110VAC,0.5A Operating Temperature °F(°C) -27 to+140(-33 to+60) Operating Humidity 5 95% Environmental Class NEMA 4X MTBF hr a 100,000 @ 77°F Note:Typical specifications at room temperature, Outline Drawing 2019 Combs Telecom. All rights reserved Information contained in this document is subject to confirmation at time of ordering. Page 2 of 8 Specifications may differ depending on region and customers'requirements. DS-Control:0-0-2/0919 -_i .0 -off A Igo . -. . -0 Illllllllll1llllllllll 01 • _ 210 390 F. 165 _ 280 _ La E Ill Up 1 1 0 opM 1 u7 t Io 0 0 l 11 ) 3 I'i l_ m i [1 = Part Numbers Configuration 33dBm DC Class A 27dBm DC Class A 33dBm DC Class B 27dBm DC Class B Single band 700MHz RX07V1-A3348-UL RX07V1-A2748-UL RX07V1-B3348-UL / Single band 800MHz RX08V1-A3348-UL RX08V1-A2748-UL RX08V1-B3348-UL / Dual band 700/800MHz RX78V1-A3348-UL RX78V1-A2748-UL RX78V1-B3348-UL RX78V1-B2748-UL License Dual Band(700/800MHz)License RX7W22-L783233 RX7W22-L788333 ®2019 Combo Telecom. All rights reserved Information contained in this document is subject to confirmation at time of ordering. Page 3 of 3 Specifications may differ depending on region and customers'requirements. DS-Control:0-0-2/0919 CriticalPointTM Public Safety Battery Backup Unit �Om� CPBBUVI-48055-UL ci keeps you connected UL2524 Compliant Features • Provides an uninterruptible DC-48V power supply to Public Safety equipment • Supports minimum 24 hours backup power for 100W equipment or • • minimum 12 hours backup power for 200W equipment • Supports alarms: - AC Fail Alarm- Battery Low Alarm - Combo c, - Charger Fail Alarm • Supports 4 external alarms from other Public Safety equipment • Supports 7 dry contact output to additional annunciator panel /fire panel • Supports LED displays for all dry contact alarms in front panel • Supports outlets for EPO (Emergency Power Off)switch • Supports local monitoring and control through RJ45 port • • • • • UL 2524 Compliant Specifications Mechanical Dimensions,H x W x D in(mm) 29.4 x 23.8 x 12.0(747 x 605 x 305) Weight(without bracket) lb(kg) 44.1(20)(not include batteries) Knockouts 7/8-inch hole for 1/2-inch conduit x 8 Operating Temperature °F(°C) -27 to 131 (-33 to 55) Operating Humidity <_95% Enclosure Environmental Class UL50E Type 4 Electrical and Battery Power Supply(Input) VAC 100-240/47-63Hz Power Supply(Output) VDC -48V Power Supply(Maximum Charging Current) A 10 Heat Dissipation BTU/hr 143.3 Battery Amp/Hour,Quantity 55AH(Neata NT12-55AH)x 4 Battery Weight lb(kg) 36.2(16.4) Total Battery Electrolyte Pounds 29.6 Total Battery Content Gallons 3.17932 Battery Backup Capacity min.24 Hour for 100W or min. 12 Hour for 200W Alarms Dry Contact Outputs 7 External Alarms Inputs 4 Maximum Input for Dry Contact Port 24VDC, 3A Note:Typical specifications at room temperature, ©2019 Combo Telecom. All rights reserved Information contained in this document is subject to confirmation at time of ordering. Page 1 of 2 Specifications may differ depending on region and customers'requirements. DS-Control:0-0-2/0919 Combci keeps you connected Outline Drawing 0 • _ 605 305 0 0 0 0 III i ] o III'( 00000000 0 Comba o CriticalPoint O ElN o Ilftl r` co ii ] It W 0 0 0 0 -. Discharge Chart Discharge Chart 100W @ 20°C(68°f) s,0 771 00 no I a, ro- m 4/00 _.__... , _ .__..... • .._ . . 000 4.q1 8(0 12(0 itW 70141 I°W Discharge Time(Hour) Part Numbers Part Number I Description CPBBUV1-48055-UL l 100-240VAC Input I-48VDC Output,55AH batteries,UL2524 compliant ®2019 Comba Telecom. All rights reserved Information contained in this document is subject to confirmation at time of ordering. Page 2 of 2 Specifications may differ depending on region and customers'requirements. DS-Control:0-0-2/0919 AMPLIFIED WIRELESS SOLUTIONS, INC Submittal No. Emergency Responder Radio Coverage System Twality Middle School Portland Electrical Construction, Inc. Contract#:486-600 AWS Project#: 10322 TAB # 9 Distributed Antenna System Specification Section: Emergency Responder Radio Coverage System Para. No. 9.1 Maintenance Service Contract Item shall be included as part of future submittal package. C�•)) AMPLIFIED WIRELESS SOLUTIONS.INC Submittal No. Emergency Responder Radio Coverage System Twality Middle School Portland Electrical Construction, Inc. Contract#:486-600 AWS Project#: 10322 TAB # 10 Distributed Antenna System Specification Section: Emergency Responder Radio Coverage System Para. No. 10.1 Permit Drawings/Letter of Authorization Item shall be included as part of future submittal package. Shall be provided once shop drawings have been approved and submitted to the AHJ for Approval