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STRUCTRUAL ANALYSIS - 17-00416 - Walmart - Cell Tower
www.aerosolutionsllc.com May 18, 2017 Cliff Hieb Verizon Wireless 9656 Prosperity Road West Jordan, UT 84091 Subject: Structural Analysis Carrier Designation: Carrier Site Name: Walmart ID Rexburg SC1 Analysis Criteria: Codes: IBC 2012 ASCE 7-10 AISC 360-10 Engineering Firm Designation: Aero Solutions LLC Project Number: 097-16-0071 Site Data: Walmart ID6 Rexburg SC1 1450 North 2nd E., Rexburg, ID 83440 Cliff, Aero Solutions LLC is pleased to submit this passing structural analysis of the existing building for installing one (1) proposed omni antenna, two (2) proposed RRHs, one (1) proposed diplexer, and one (1) proposed OVP on the exterior building wall and interior side of the parapet wall. Additionally, (1) Charles Cube cabinet is to be installed on the exterior wall of the building at ground level. The proposed NH360QM-DG-2XR omni antenna is to be installed on a proposed 3.0” STD pipe mast supported by two (2) Site Pro 1 WMA312 angle mounts, or approved equal, at a RAD center of approximately 28’-0” AGL. The proposed mounts should be thru-bolted to the exterior wall using 1/2”Ø thru bolts and 15” long 3”x1/4” backing plates. The proposed RRHs, diplexer, and OVP are to be installed on unistrut mounts on the backside of the parapet wall. The proposed equipment cabinet should be mounted to the exterior wall using 1/2”Ø thru- bolts, and installed per manufacturer recommendations. Please refer to Appendix A for supporting structural calculations. The contractor is to verify all assumptions in this report prior to starting construction. Any discrepancies shall be brought to the attention of the engineer. Prepared by: Sihang Wei, Ph.D. Respectfully submitted by: Matthew Chase, P.E. Structural Engineer ID PE#: 16031 Expires: 11/30/2017 Aero Solutions LLC 5555 Central Avenue, Suite 100 Boulder, CO 80301 720-304-6882 May 18, 2017 Rooftop Structural Analysis Walmart ID6 Rexburg SC1 Project Number 097-16-0071 Page 2 Rooftop Analysis Report - version 0.0.0.1 TABLE OF CONTENTS 1) INTRODUCTION 2) ANALYSIS CRITERIA 2.1) Proposed Antenna/RRH Information 2.2) Project Description 3) ANALYSIS PROCEDURE 3.1) Analysis Method 3.2) Assumptions 4) ANALYSIS RESULTS 4.1) Conclusion and Recommendations 5) APPENDIX A Additional Calculations 6) APPENDIX B Equipment Cut Sheets May 18, 2017 Rooftop Structural Analysis Walmart ID6 Rexburg SC1 Project Number 097-16-0071 Page 3 Rooftop Analysis Report - version 0.0.0.1 1) INTRODUCTION The following report includes the description and calculations for the rooftop mounts at 1450 North 2nd E., Rexburg ID 83440. All recommendations and assumptions in this report shall be reviewed carefully prior to the installation of the equipment. 2) ANALYSIS CRITERIA 2.1) Proposed Antenna/RRH Information The proposed equipment consists of one (1) NH360QM-DG-2XR omni antenna, two (2) proposed RRHs, one (1) proposed diplexer, and one (1) proposed OVP. The omni antenna weighs approximately 47 lbs including mounting brackets. The RRHs and OVP weigh approximately 55 lbs each and 32 lbs, respectively. The diplexer weighs approximately 4 lbs. 2.2) Photos and Project Description The proposed NH360QM-DG-2XR omni antenna is to be installed on a proposed 3.0” STD pipe mast supported by two (2) Site Pro 1 WMA312 angle mounts, or approved equal, at a RAD center of approximately 28’-0” AGL. The proposed mounts should be thru-bolted to the exterior wall using 1/2”Ø thru bolts and 15” long 3”x1/4” backing plates. The proposed RRHs, diplexer, and OVP are to be installed on unistrut mounts on the backside of the parapet wall. The proposed equipment cabinet should be mounted to the exterior wall using 1/2”Ø thru-bolts, and installed per manufacturer recommendations. Please refer to Appendix A for supporting structural calculations. 3) ANALYSIS PROCEDURE 3.1) Analysis Method Mathcad 15 and Risa 3D were used to calculate loads and member stresses for various loading cases. Selected output from the analysis is included in Appendix A. 3.2) Assumptions 1. The exterior wall at the antenna location and cabinet location is assumed to be constructed of 8” thick normal weight CMU with brick veneer. The CMU wall is assumed to be partially grouted and reinforced with minimum steel required per ACI 530. 2. The structure has been maintained and the building is structurally sound. 3. The configuration of the antennas, transmission cables, mounts and other appurtenances are as specified in the construction drawings prepared by Aero Solutions, project number 097-16-0071. The analysis may be affected if any assumptions are not valid or may have been made in error. Aero Solutions LLC should be notified to determine the effect on the structural integrity of the structure. May 18, 2017 Rooftop Structural Analysis Walmart ID6 Rexburg SC1 Project Number 097-16-0071 Page 4 Rooftop Analysis Report - version 0.0.0.1 4) ANALYSIS RESULTS 4.1) Conclusion and Recommendations The proposed equipment represents less than a 10% increase in lateral loads on the existing structure and less than a 5% increase in gravity loads on the existing structure, and therefore the proposed installation may be installed as intended. Aero has determined that the existing structure has sufficient capacity to support the proposed loads based on the assumptions and project description given in previous sections of this report. No modifications are required at this time. May 18, 2017 Rooftop Structural Analysis Walmart ID6 Rexburg SC1 Project Number 097-16-0071 Page 5 Rooftop Analysis Report - version 0.0.0.1 APPENDIX A Additional Calculations Aero Solutions, LLC 5555 Central Avenue Suite 100 Boulder, CO 80301 Structural Analysis Verizon Wireless Walmart ID6 Rexburg SC1 1 of 6 5/18/2017 Walmart ID6 Rexburg SC1 - Rooftop Analysis.xmcd General Wind Input Per ASCE 7-10: ASCE 7-10 Reference Basic Wind Speed:V 115mph Section 26.5.1, pg 246 Wind Directionality Factor:Kd 0.85Table 26.6-1, pg 250 Exposure Category:Exp "C"Section 26.7.3, pg 251 Topographic Factor:Kzt 1.0Section 26.8.2, pg 254 Gust Effect Factor:G 0.85Section 26.9.1, pg 254 hroof 19 ft0inMean Roof Height: Terrain Exposure Constants:α 7.0 Exp "B"=if 9.5 Exp "C"=if 11.5 Exp "D"=if "Error" otherwise Table 26.9-1, pg 256 zg 1200 ftExp "B"=if 900 ftExp "C"=if 700 ftExp "D"=if "Error" otherwise Table 26.9-1, pg 256 Velocity Pressure Coefficient Function:Kz z( ) 2.01 z zg 2 α Table 29.3-1, pg 310 Force Coefficient:GCr1.9 h roof 60 ftif "N/A" otherwise Section 29.5.1, pg 308 Minimum Velocity Pressure Coefficieint: Kz_min 0.57 Exp "B"=if 0.85 Exp "C"=if 1.03 Exp "D"=if "Error" otherwise Table 29.3-1, pg 310 Aero Solutions, LLC 5555 Central Avenue Suite 100 Boulder, CO 80301 Structural Analysis Verizon Wireless Walmart ID6 Rexburg SC1 2 of 6 5/18/2017 Walmart ID6 Rexburg SC1 - Rooftop Analysis.xmcd General Snow Input Per ASCE 7-10: ASCE 7-10 Reference Risk Category:Cat "II"Table 1.5-1 pg 2 Ground Snow Load:pg 50psfFigure 7-1, Pg. 34-35 Exposure Factor:Ce 1.0Table 7-2, Pg. 30 Thermal Factor:Ct 1.0Table 7-3, Pg. 30 Importance Factor:Is 0.8 Cat "I"=if 1.0 Cat "II"=if 1.1 Cat "III"=if 1.2 Cat "IV"=if Table 1.5-2, Pg. 5 Flat Snow Load:Pf 0.7Ce CtIspg35 psfEquation 7.3-1, Pg. 29 Minimum Snow Load:Pf_min Is pgpg 20psfif 20psf Ispg 20psfif Section 7.3.4, Pg. 29 Pf max Pf Pf_min Pf 35 psf Calculate Wind Loads on Proposed Appurtenances: Antenna Height:z28ft0in Kz max Kz z()Kz_min0.968Velocity Pressure Coefficient: Velocity Pressure:qz 0.00256 KzKztKdV2psf27.859 psfEquation (29.3-1), pg 307 Proposed NH360QM-DG-2XR Antenna: Antenna Dimensions:h 38.7 inr 12.0 inWant1 46.9 lbf Wind Area (front):Aant hr3.22ft2 Wind Load (front):Fant1 qz GCrAant170.7 lbfEquation (29.5-2), pg 308 Wind Area (side):Aant_s hr3.22ft2 Wind Load (side):Fant1_s q z GCrAant_s170.7 lbfEquation (29.5-2), pg 308 Proposed B66a RRH4x45: RRH Dimensions:h 25.6 inw 12.0 ind 7.3 inWrrh1 56.8 lbf Wind Area (front):Arrh hw2.13ft2 Wind Load (front):Frrh1 qz GCrArrh112.9 lbfEquation (29.5-2), pg 308 Wind Area (side):Arrh_s hd1.3ft2 Wind Load (side):Frrh2_s q z GCrArrh_s68.7lbfEquation (29.5-2), pg 308 Aero Solutions, LLC 5555 Central Avenue Suite 100 Boulder, CO 80301 Structural Analysis Verizon Wireless Walmart ID6 Rexburg SC1 3 of 6 5/18/2017 Walmart ID6 Rexburg SC1 - Rooftop Analysis.xmcd Proposed B13 RRH4x30-4R: RRH Dimensions:h 21.6 inw 12.0 ind 9.0 inWrrh2 56.8lbf Wind Area (front):Arrh hw1.8ft2 Wind Load (front):Frrh2 qz GCrArrh95.3lbfEquation (29.5-2), pg 308 Wind Area (side):Arrh_s hd1.35ft2 Wind Load (side):Frrh2_s q z GCrArrh_s71.5lbfEquation (29.5-2), pg 308 Proposed OVP: OVP Dimensions:h 28.9 inw 15.7 ind 10.3 inWovp 32 lbf Wind Area (front):Aovp hw3.15ft2 Wind Load (front):Fovp qz GCrAovp166.8 lbfEquation (29.5-2), pg 308 Wind Area (side):Aovp_s hd2.07ft2 Wind Load (side):Fovp_s q z GCrAovp_s109.4 lbfEquation (29.5-2), pg 308 Proposed Diplexer: Diplexer Dimensions:h 5.9 inw 5.9 ind 1.9 inWdip 4.0 lbf Wind Area (front):Adip hw0.24ft2 Wind Load (front):Fdip q z GCrAovp166.8 lbfEquation (29.5-2), pg 308 Wind Area (side):Adip_s hd0.08ft2 Wind Load (side):Fdip_s qz GCrAovp_s109.4 lbfEquation (29.5-2), pg 308 Mount Pipe: Pipe Dimensions:d 3.5 in Wind Load Fpipe qz GCrd15.44 plfEquation (6-28), pg 29 Unistrut: Strut Dimensions:d 1.625 in Wind Load Fstrut q z GCrd7.17 plfEquation (6-28), pg 29 Aero Solutions, LLC 5555 Central Avenue Suite 100 Boulder, CO 80301 Structural Analysis Verizon Wireless Walmart ID6 Rexburg SC1 4 of 6 5/18/2017 Walmart ID6 Rexburg SC1 - Rooftop Analysis.xmcd Antenna Mount Risa3D Model: Risa3D Reactions: A "LC" 2 2 2 2 "Joint Label" "N2" "N3" "N7" "N8" "X [lb]" 161.455 161.455 75.505 75.505 "Y [lb]" 23.224 23.224 79.009 79.009 "Z [lb]" 0 0 0 0 B "LC" 3 3 3 3 "Joint Label" "N2" "N3" "N7" "N8" "X [lb]" 153.15 153.15 67.2 67.2 "Y [lb]" 79.179 79.179 23.394 23.394 "Z [lb]" 0 0 0 0 C "LC" 4 4 4 4 "Joint Label" "N2" "N3" "N7" "N8" "X [lb]" 34.742 43.057 8.235 .08 "Y [lb]" 159.968 104.027 14.89 40.739 "Z [lb]" 137.437 137.437 51.487 51.487 D "LC" 5 5 5 5 "Joint Label" "N2" "N3" "N7" "N8" "X [lb]" 43.057 34.742 .08 8.235 "Y [lb]" 104.027 159.968 40.739 14.89 "Z [lb]" 137.437 137.437 51.487 51.487 E "LC" 6 6 6 6 "Joint Label" "N2" "N3" "N7" "N8" "X [lb]" 87.865 142.87 57.482 51.72 "Y [lb]" 85.098 101.549 54.875 73.146 "Z [lb]" 97.177 97.177 36.41 36.41 F "LC" 7 7 7 7 "Joint Label" "N2" "N3" "N7" "N8" "X [lb]" 134.559 79.556 43.407 49.175 "Y [lb]" 157.495 29.148 17.528 .752 "Z [lb]" 97.16 97.16 36.393 36.393 Aero Solutions, LLC 5555 Central Avenue Suite 100 Boulder, CO 80301 Structural Analysis Verizon Wireless Walmart ID6 Rexburg SC1 5 of 6 5/18/2017 Walmart ID6 Rexburg SC1 - Rooftop Analysis.xmcd Check Connection Bolts: Use minimum 1/2"Ø A36 threaded rod. AISC 360-10 Reference Bolt Diameter:dbolt 0.5 in Ultimate Stess:Fu 58 ksi Area Bolt:Abolt 0.25 πdbolt 20.2 in 2 Nominal Tensile Stress:Fnt 0.75 Fu43.5 ksiTable J3.2, pg 16.1-120 Nominal Shear Stress:Fnv 0.45 Fu26.1 ksiTable J3.2, pg 16.1-120 Safety Factor:Ω 2.0Section J3.7, pg 16.1-125 Int x( ) m rows x() Xx2 Yx3 Zx4 Int 0 vYi2 Zi2lbf tXilbf frv v Abolt frt t Abolt F'nt min 1.3 Fnt Ω Fnt Fnv frvFnt Int max Int Ω frv Fnv Ω frt F'nt i1m1for Eq (J3-3B), pg 16.1-125 Int A( ) 4.85 %Int B( ) 6.68 %Int C( ) 9.04 %Int D( ) 9.04 %Int E( ) 8.83 %Int F( ) 10.37 % Maximum Bolt Capacity:Interaction max Int A( ) Int B()Int C()Int D()Int E()Int F()( ) 10.37 % Interaction Check:Check "OK" Interaction 1.0if "No Good" otherwise Check "OK" The proposed thru bolts are ADEQUATE for supporting the proposed appurtenances. Therefore the proposed antennas can be installed as intended. Aero Solutions, LLC 5555 Central Avenue Suite 100 Boulder, CO 80301 Structural Analysis Verizon Wireless Walmart ID6 Rexburg SC1 6 of 6 5/18/2017 Walmart ID6 Rexburg SC1 - Rooftop Analysis.xmcd Calculate Wind Loads on Proposed Cabinet: Cabinet Height:z4ft0in Kz max Kz z()Kz_min0.85Velocity Pressure Coefficient: Velocity Pressure:qz 0.00256 KzKztKdV2psf24.461 psfEquation (29.3-1), pg 307 Proposed Cube Cabinet Cube Dimensions:h25inw23ind25inWcab 150 lbf Wind Area (front):Acab hw3.99ft2 Wind Load (front):Fcab q z GCrAcab185.6 lbfEquation (6-28), pg 29 The additional loads on the existing structure due to the proposed appurtenances represents less than a 10% increase in lateral loads and less than a 5% increase in gravity loads and is therefore considered to be acceptable. Therefore, the proposed equipment may be installed as intended. No structural modifications are required at this time. May 18, 2017 Rooftop Structural Analysis Walmart ID6 Rexburg SC1 Project Number 097-16-0071 Page 6 Rooftop Analysis Report - version 0.0.0.1 APPENDIX B Equipment Cut Sheets www.commscope.com PB-110078-EN 2016 CommScope, Inc. All Rights Reserved Date: 06/03/2016 NH360QM-DG-2XR – Dual Band Quasi Omni Antenna with RET on both bands Global communication CommScope has released the first dual band small cell antenna that has RET on both high and low bands. This canister antenna is perfect for densification of LTE networks in order to add capacity and improve service quality. The tilt capability on high and low bands allows you to contain the interference of the beams to with in the macro cell network and also to other small cell sectors. Networks using this small cell antenna will have better signal-to-noise-ratio, which results into high throughput rates and excellent network performance. The tilt can be changed (a) manually with an allen wrench for a one time setup, (b) with CommScope’s RET-Master (portable RET controller), or (c) remotely through the OEM radio to allow ongoing optimization. Two tilt indicators clearly show the current tilt setting for each band. The longer length of this antenna provides a narrow vertical beamwidth—crucial to containing interference, plus it offers higher gain for better service quality, higher data rates and a bigger sector size. The increased coveragre area means a much improved return on investment. This quasi-omni antenna has three radiating columns of dual band elements. All three columns are combined so that just one radio broadcasts 360 degrees around the site. This antenna has three peaks and three nulls in the patterns, which is important for mitigating external PIM—a challenge especially in urban areas where this antenna is mainly deployed. By rotating the antenna during installation and then steering one of the three nulls into the direction of an external PIM source (like a lightp ole or any other metal structure), up to 30 dB of external PIM reduction can be achieved. Noise containment is another factor that delivers superior data throughput rates in using this antenna. As an added benefit, the internal diplexers in this antenna m inimze the number of required cables and an internal GPS provides LTE time synchronization. www.commscope.com PB-110078-EN 2016 CommScope, Inc. All Rights Reserved Date: 06/03/2016 Product Highlights RET on low and high band: Mitigate interference improve signal to noise ratio, superior performance and throughput rates. AWS/PCS support: This antenna supports 1695-2200MHz supporting all AWS, PCS bands including AWS-3 and AWS-4. Internal diplexer: This antenna features an internal diplexer for reduced number of cable runs. Internal GPS: This antenna features internal GPS for LTE time synchronization. -153 dBc PIM: This antenna has superior, long term PIM performance which is crucial for noise suppression in the RF path and for high data throughput rates. Ordering Information: Please see details below about the NH family of dual band small cell antennas from CommScope . Model Number Type Length Frequency MHz Diplexer Internal GPS TILT Option NH360QM-DG-2XR Quasi- Omni 3ft 1695-2200 698-896 Yes Yes 2 internal RETs (1 x HB, 1 x LB) 1 AISG INPUT port Manual adjustment for HB and LB NH360QS-DG-F0M Quasi- Omni 2ft 1695-2180 698-896 Yes Yes Manual tilt on HB, fixed tilt on LB NH360QS-G-F0M Quasi- Omni 2ft 1695-2180 698-896 No Yes Manual tilt on HB, fixed tilt on LB NH180QS-DG-F0M Heart Shape 2ft 1695-2180 698-896 Yes Yes Manual tilt on HB, fixed tilt on LB NH65PS-DG-F0M Peanut Shape 2ft 1695-2180 698-896 Yes Yes Manual tilt on HB, fixed tilt on LB NH65S-DG-F0M Flat Panel 2ft 1695-2180 698-896 Yes Yes Manual tilt on HB, fixed tilt on LB NH65T-DG-F0 Flat Panel 1ft 1695-2180 698-896 Yes Yes Fixed tilt on HB and LB Please contact your local CommScope Sales Representative for more information. NH360QMNH360QM--DGDG--2XR2XR Multiband Quasi Omni Metro Cell Antenna, 698-896 and 1695–2200 MHz, internal RETs with manual override, internal diplexer and active GPS L1 band antenna * CommScope® supports NGMN recommendations on Base Station Antenna Standards (BASTA). To learn more about the benefits of BASTA, download the whitepaper Time to Raise the Bar on BSAs. Electrical Specifications Frequency Band, MHz 698–806 806–896 1695–1880 1850–1990 1920–2200 Gain, dBi 6.1 7.1 9.7 9.9 9.9 Beamwidth, Horizontal, degrees 360 360 360 360 360 Beamwidth, Vertical, degrees 28.6 25.4 11.2 10.6 10.1 Beam Tilt, degrees 0–20 0–20 0–14 0–14 0–14 USLS (First Lobe), dB 16 15 14 13 13 Isolation, dB 25 25 25 25 25 VSWR | Return Loss, dB 1.5 | 14.0 1.5 | 14.0 1.5 | 14.0 1.5 | 14.0 1.5 | 14.0 PIM, 3rd Order, 2 x 20 W, dBc -153 -153 -153 -153 -153 Input Power per Port, maximum, watts 125 125 125 125 125 Polarization ±45°±45°±45°±45°±45° Impedance 50 ohm 50 ohm 50 ohm 50 ohm 50 ohm Electrical Specifications, BASTA* Frequency Band, MHz 698–806 806–896 1695–1880 1850–1990 1920–2200 Gain by all Beam Tilts, average, dBi 5.4 6.3 9.3 9.4 9.4 Gain by all Beam Tilts Tolerance, dB ±1 ±0.7 ±0.5 ±0.7 ±0.7 Gain by Beam Tilt, average, dBi 0 ° | 5.1 10 ° | 5.4 20 ° | 5.6 0 ° | 6.3 10 ° | 6.3 20 ° | 6.0 0 ° | 9.2 7 ° | 9.3 14 ° | 9.2 0 ° | 9.3 7 ° | 9.5 14 ° | 9.1 0 ° | 9.4 7 ° | 9.6 14 ° | 9.1 Beamwidth, Vertical Tolerance, degrees ±3.7 ±3.2 ±0.9 ±1.1 ±1.1 USLS, beampeak to 20° above beampeak, dB 13 13 13 General Specifications Operating Frequency Band 1695 – 2200 MHz | 698 – 896 MHz Antenna Type Omni Band Multiband Internal GPS frequency band 1575.42 MHz Internal GPS VSWR 2.0 Performance Note Outdoor usage Total Input Power, maximum 400 W @ 50 °C Mechanical Specifications RF Connector Quantity, total 2 RF Connector Interface 7-16 DIN Female Color Light gray GPS Connector Interface 4.1-9.5 DIN Female Product SpecificationsProduct Specifications ©©2017 CommScope, Inc. All rights reserved. All trademarks identified by 2017 CommScope, Inc. All rights reserved. All trademarks identified by ® ® or ™ are registered trademarks, respectively, of CommScope.or ™ are registered trademarks, respectively, of CommScope. All specifications are subject to change without notice. See www.commscope.com for the most current information. Revised: April 4, 2017All specifications are subject to change without notice. See www.commscope.com for the most current information. Revised: April 4, 2017 page 1 of 2page 1 of 2 May 17, 2017May 17, 2017 GPS Connector Quantity 1 Grounding Type RF connector inner conductor and body grounded to reflector and mounting bracket Radiator Material Aluminum | Low loss circuit board Radome Material ASA, UV stabilized Reflector Material Aluminum RF Connector Location Bottom RF Connector Quantity, diplexed low and high bands 2 Wind Loading, maximum 225.0 N @ 150 km/h 50.6 lbf @ 150 km/h Wind Speed, maximum 200 km/h | 124 mph Dimensions Length 982.0 mm | 38.7 in Outer Diameter 305.0 mm | 12.0 in Net Weight, without mounting kit 15.3 kg | 33.7 lb Remote Electrical Tilt (RET) Information Input Voltage 10–30 Vdc Internal RET High band (1) | Low band (1) Power Consumption, idle state, maximum 2.0 W Power Consumption, normal conditions, maximum 13.0 W Protocol 3GPP/AISG 2.0 (Multi-RET) RET Interface 8-pin DIN Male RET Interface, quantity 1 male Packed Dimensions Length 1251.0 mm | 49.3 in Width 427.0 mm | 16.8 in Depth 407.0 mm | 16.0 in Shipping Weight 20.6 kg | 45.4 lb Regulatory Compliance/Certifications Agency Classification RoHS 2011/65/EU Compliant by Exemption China RoHS SJ/T 11364-2006 Above Maximum Concentration Value (MCV) ISO 9001:2008 Designed, manufactured and/or distributed under this quality management system * Footnotes Performance Note Severe environmental conditions may degrade optimum performance Product SpecificationsProduct Specifications NH360QMNH360QM--DGDG--2XR2XR ©©2017 CommScope, Inc. All rights reserved. All trademarks identified by 2017 CommScope, Inc. All rights reserved. All trademarks identified by ® ® or ™ are registered trademarks, respectively, of CommScope.or ™ are registered trademarks, respectively, of CommScope. All specifications are subject to change without notice. See www.commscope.com for the most current information. Revised: April 4, 2017All specifications are subject to change without notice. See www.commscope.com for the most current information. Revised: April 4, 2017 page 2 of 2page 2 of 2 May 17, 2017May 17, 2017 ©Copyright 2014 Charles Industries, Ltd. All Rights reserved. Printed in the United States of America Availability of features and technical specifications herein are subject to change without notice. Charles is a registered trademark of Charles Industries. Page 1 of 6 LT -RL11411AN1 Equipment Issue 1 1st Printing, August 21, 2014 Charles Universal Broadband Enclosure (CUBE) RL11411AN1 General Description and Installation Table of Contents Page No 1. GENERAL INTRODUCTION ......................................................... 1 1.1 Document Purpose .................................................. 1 1.2 Product Purpose ...................................................... 1 1.3 Product Mounting and Location ............................. 1 2. PRODUCT DESCRIPTION .............................................................. 1 3. INSTALLATION ................................................................................. 4 3.1 Inspecting the Product ............................................ 4 3.2 Following and Using Safety Precautions ................. 4 3.3 Obtaining Tools and Equipment ............................. 4 3.4 Preparing the Installation Site ................................ 4 3.5 Mounting the CUBE................................................ 4 3.6 Wiring the CUBE .................................................... 5 3.7 Verifying the Installation ........................................ 5 4. PERIODIC MAINTENANCE........................................................... 5 5. TECHNICAL ASSISTANCE AND REPAIR SERVICE ............. 5 6. WARRANTY & CUSTOMER SERVICE ..................................... 5 7. SPECIFICATIONS .............................................................................. 6 7.1 Regulatory Specifications ........................................ 6 7.2 Physical Specifications ............................................ 6 1. GENERAL INTRODUCTION 1.1 Document Purpose This document provides general information for the CUBE- RL11411AN1 Charles Industries’ Universal Broadband Enclosure (CUBE). Figure 1 shows a closed view of the CUBE. -NOTE- Hereafter, the Charles Universal Broadband Enclosure will be referred to as RL11411AN1 or “CUBE.” 1.2 Product Purpose This CUBE consists of a protective remote terminal enclosure for an integrated system of electronic components and equipment that can serve fiber and copper interfaces. 1.3 Product Mounting and Location This enclosure is suitable for outside plant -type (OSP) locations and those that may require NEC compliance. The outdoor, weather- resistant CUBE is to be mounted on a wall, pole or H-frame. The installer connects the power, fiber and copper connections. Detailed mounting and installation information is covered in Section 3. 2. PRODUCT DESCRIPTION This section contains information regarding the CUBE’s physical design and interior components. Figure 2 shows the dimensions of the RL11411AN1 . T he main components of the RL11411AN1 are shown in Figure 3. The CUBE has these key features: Door wind latch Padlockable 3-point latching 216-style swing door handle One 2x8 position ground bar 14 RU of 19” rack space with EIA hole spacing Door alarm indicator/switch 580W heat exchanger with external thermostat Removable cover plates (both sides) Figure 1 Closed View of the RL11411AN1 LT-RL11411AN1 2 Figure 2 RL11411AN1 Dimensions (in inches) LT-RL11411AN1 3 Figure 3 CUBE Components LT-RL11411AN1 4 3. INSTALLATION This section describes the pr ocedures for installing the CUBE, which consist of: inspecting the equipment following all safety precautions determining the mounting location gathering t he necessar y t ools and equipment prepa ring the inst allation site mounting/installing the enclosure gr ounding t he enclosure making t he necessar y power connections installing batteries making ins t aller fi ber and copper cable feed wiri ng connections i ns i de the enclosure site cleanup 3.1 Inspecting the Product The CUBE i s s hipped mounted t o a skid. Remove the bolts, unpack t he unit, remove and dis pose of t he packagi ng material . -INSPECTION NOTE- Visually inspect the unit for damages prior to installation. If the equipment was damaged in transit, immediately report the extent of the damage to the transportation company. 3.2 Following and Using Safety Precautions Read the following site and safety tips, cautions, and warnings, then pr ocee d with the paragraphs that follow. For i nst allation, follow all National Electri cal Codes (NEC) ANS I/NFPA 70−2005, local , envi ronment al, workplace, and company codes, safet y procedures, and practices. Minimum spacing between the accessori es and components and the housing for ITE equipment shall be maintained for safe operation of the equi pment when installed in accordance with NEC ANS I/NFPA 70−2005 Read al l inst ructions, warnings and cautions on the equipment and in the documentation shipped with the product. Ground connections should al ways be connected fi rst. Do not pl ace this product on weak or unstabl e surfaces which may allow the product t o fall, r esulting i n potenti ally serious damage(s) to persons or product. The CUBE shoul d be installe d by authorized trained personnel onl y. In windy conditions, be sure to engage the door latch to secure the door in a stationary position. -WARNING- Perform all bonding and grounding connections prior to any electrical and communications connections. 3.3 Obtaining Tools and Equipment Obtain the following recommended or needed items for installing the CUBE: Sufficient length and quantities of fiber cable (or pigtails) Cable scoring, opening, and cutting tools for cable sheathing, shields, wrappings, strength members and buffer tubes Wire strippers Crimpers Cable, tube, wire, and fiber cleaning materials Protective and/or insulated work gloves Safety glasses Tape measure Marking utensil #6 ground wire or rod and earth ground materials Bond strap (optional, from cable bond clamp to bond post) An y exterior cable strain relief, per company practice Slotted and Phillips screwdrivers Assorted cable ties, clips, or fasteners (optional) Can wrench (216 tool) Pad-mounting template Level 3.4 Preparing the Installation Site Observe the following site preparation recommendations: Adequate horizontal and vertical space should be left between multiple installations to allow for proper cable access, as well as enough room on all sides for opening the doors. The site must meet minimal personnel and equipment safety requirements. The distance from the cable entry point should be consistent with local installation practices. The wall, H-frame, pad or pole must be able to support the weight of the CUBE. Run all fiber and copper facilities to the site. Unpack the product and inspect it for damage. 3.5 Mounting the CUBE - WARNNG - Risk of injury! A two-person lift and installation is recommended. Always exercise caution when lifting and mounting the unit. LT-RL11411AN1 5 The CUBE ships at a weight of 82 lbs. Refer to Figure 2 for mounting dimensions for positioning the mounting hardware. Charles recommends using a minimum of 3/8” diameter non- corrosive bolts, washers and nuts for all mounting applications. Bolts need to be of sufficient length depending on which type of mounting is used. A minimum of ¾” thick plywood is required for wall mounting. Charles Kit #97-CABPMTKIT is available for pole-mount applications. Charles Kit #97-001971-A contains hardware for mounting to H-frame unistruts. 3.6 Wiring the CUBE Refer to the block diagram in Figure 4 for connecting the 48V to the RL11411AN1. After the CUBE is properly mounted in the desired location, install the ground and power connections. -WARNING- Perform all bonding and grounding connections prior to any electrical and communications connections. In order to prevent condensation prior to being placed in service, do not remove the desiccant until turn-up. 3.6.1 Making the Ground Connections The CUBE has one 2x8 position ground bar provided in the equipment compartment. This ground bar should be used for all grounding of internal equipment. 3.6.2 DC Voltage Connections The incoming 48V is connected to the heat exchanger and to the external thermostat as shown in Figure 4. 3.6.3 Heat Exchanger The 48VDC heat exchanger is a side-mounted, lightweight, low power, long life maintenance-free cabinet cooler. The closed loop unit transfers the heated internal air to the ou tside, while pulling the cool ambient air to the inside. For more information, refer to the heat exchanger documentation found inside the CUBE. A 5A disconnect device is recommended for the heat exchanger. Red wire is negative and black wire is positive. The heat exchanger thermostat is set at 30oC (+/-4 oC) at the factory. The thermostat will turn on at its set point and will not turn back off until the temperature has dropped 7 oC. The thermostat’s set point may be lowered or raised depending on internal load and ambient temperature outside. It has a variable range of 0 oC to 60 oC. 3.7 Verifying the Installation Verify that earth ground and all grounding and bonding is complete and functional. After verifying that all installer connections are secure and complete, turn on the equipment and verify it turns up correctly. 4. PERIODIC MAINTENANCE In the event that the enclosure needs to be opened in freezing conditions, a narrow, blunt metallic object such as a screwdriver or chisel, along with a non-metallic device like a rubber mallet, may be used to remove excessive ice buildup around the door and locking mechanism. A commercial aerosol de-icer spray can be used to free up locks and latches if needed. The heat exchanger requires no scheduled maintenance other than cleaning the fans and the heat exchanger core if they become contaminated with dust or residue. The cover is taken off by removing the four T20 screws on the outside. The heat exchanger should be examined periodically to determine the required cleaning periods based on the installed environmental conditions. 5. TECHNICAL ASSISTANCE AND REPAIR SERVICE For questions on product repair or if technical assistance is required, contact Charles Technical Support at: 847-806-8500 800−607−8500 847−806−8556 (FAX) techserv@charlesindustries.com (email) http://www.charlesindustries.com/main/tech_support.htm 6. WARRANTY & CUSTOMER SERVICE Charles Industries, Ltd. offers a one-year warranty on the CUBE product. The Charles warranty is limited to the operation of the CUBE hardware as described in this documentation and does not cover equipment which may be integrated by a third party. The terms and conditions applicable to any specific sale of product shall be defined in the resulting sales contract. For questions on warranty or other customer service assistance, contact your Charles Customer Service Representative at: 847-806-6300 847−806−6653 (FAX) mktserv@charlesindustries.com (email) http://www.charlesindustries.com/main/telecom_sales_su pport.htm Heat exchanger connections -48V 48V RTN Red Blk 48V Heat Exchanger Heat Exchanger Thermostat Blk Red Figure 4 Electrical Diagram LT-RL11411AN1 6 7. SPECIFICATIONS 7.1 Regulatory Specifications Designed to be compliant to GR–487-CORE. 7.2 Physical Specifications The physical specifications are shown in Table 1. Category Dim ensions and weight 26”Hx23”Wx20”D 82 lbs. as shipped 19” Equipm ent Rack Space and Hole Spacing 24” (14 RU) EIA spacing with tapped 12−24 Color Off−white Materi al .125” welded aluminum Maxim um Heat Dissipation 580W with heat exchanger Heat Exchanger Dantherm #PS023017Z- Sidemount Bonding and Grounding (1) 2x8 position ground bar Mounting Wall, pole or h-frame. Operating Temp. Range, Insi de Enclosure -40° to +149°F, -40° to 65°C Operating Temp. Range, Outside Encl osure -40° to +115°F, -40° to 46°C Humi di ty 0 to 95% (non-condensing) Alti tude Up to 2000 meters (6560’) Table 1 – RL11411AN1 Physical Specifications ALCATEL-LUCENT B66A RRH4X45 The Alcatel-Lucent B66a Remote Radio Head 4x45 is the newest addition of Remote Radio Head to the extended product line of Alcatel-Lucent’s distributed Base Station solutions, aimed at facilitating smooth RF site acquisition and related civil engineering. Its operational range covers beyond that of B4 (AWS) and B10 (AWS+). Supporting 2Tx/4Tx MIMO and 2-way/4-way Rx diversity, the Alcatel-Lucent B66a RRH4x45 allows operators to have a compact radio solution to deploy LTE in the 2100 band (3GPP band 4, 10, and 66a), providing them with the means to achieve high capacity, high quality, high reliability, large instantaneous bandwidth, and high coverage with minimum site requirements. The Alcatel-Lucent B66a RRH4x45 product has four transmit RF paths, offering the possibility to select, via software only, 2Tx or 4Tx MIMO configurations with either 2x90W or 4x45W RF output power. It also supports 4-way Rx diversity at the 70 MHz instantaneous bandwidth. The Alcatel-Lucent B66a RRH4x45 is a compact (near zero-footprint) solution and operates noise free, simplifying negotiations with site property owners and minimizing environmental impacts. Its compactness and slim design makes the Alcatel-Lucent B66a RRH4x45 easy to install close to the antenna: operators can therefore locate this Remote Radio Head where RF design conditions are deemed ideal, minimizing trade-offs between available sites and RF optimum sites, together with reducing the RF feeder needs and installation costs. FEATURES Supporting LTE in 2110 - 2180 MHz band/DL, 1710-1780MHz/UL (3GPP band 4, 10, and 66a) LTE 2Tx or 4Tx MIMO (SW selectable) Configuration: 2T2R/2T4R/4T4R Output power: Up to 2x90W or 4x45W (SW configurable) 70MHz LTE carrier with 4Rx Diversity Convection-cooled (fan-less) Supports AISG 2.0 ALD devices (RET, TMA) through RS485 or RF ports BENEFITS • Compact to reduce additional footprint when adding LTE in AWS 1-3 band • Selection of MIMO configuration (2Tx or 4Tx) by software only • Improves downlink spectral efficiency through 4Tx MIMO • Increases LTE coverage thanks to 4Rx diversity capability and best in class Rx sensitivity • Flexible mounting options: Pole or Wall B66A RRH4x45 ALCATEL-LUCENT DATA SHEET REV0.1 – FEBRUARY 2016 TECHNICAL SPECIFICATIONS Features & performance Number of TX/RX paths 4 duplexed (either 4T4R or 2T4R selectable by SW) Frequency band AWS 1-3, B4/B10/B66a DL: 2110-2180 MHz / UL: 1710-1780 MHz Instantaneous bandwidth - #carriers 70 MHz – 4 LTE MIMO carriers (in 70 MHz occupied bandwidth) LTE carrier bandwidth 5, 10, 15, 20 MHz RF output power 2x90W or 4x45W (selectable by SW) Noise figure – RX Diversity scheme Receiver Sensivity (FRCA 1-3) 2 dB typical (<2.5 dB max) – 2 or 4 way Rx diversity -104.5 dBm maximum Sizes (HxWxD) in mm (in.) Volume in Liters Weight in kg (lb) (w/o mounting HW) 655x299x182 (25.8x11.8x7.2) (with solar shield) 640x290x160 (25.2x11.4x6.3) (without solar shield) 35.5 (with solar shield) 29.7 (without solar shield) 25.8kg (56.8lb) (with solar shield) DC voltage range DC power consumption Nominal: -48V, -40.5 to -57V at full performance, -38 to -57V with relaxation on power consumption 750w typical @100% RF load (in 2Tx or 4TX mode); Add 58W for 2A*29V for AISG Environmental conditions Wind load (@150km/h or 93mph) -40°C (-40°F) /+55°C (+131°F) UL50E Type 4 Enclosure 250N (56lb) Frontal/150N (34lb) Lateral Antenna ports 4 ports 4.3-10 female (50 ohms) VSWR < 1.5 CPRI ports 2 CPRI ports (HW ready for Rate 7, 9.8 Gbps) SFP: SMDF (HW supports also SMSF and MMDF) AISG interfaces 1 AISG 2.0 output (RS485) Integrated Smart Bias Tees (x2) Misc. Interfaces 4 external alarms (1 connector) 1 DC connector (2 pins) Installation conditions Pole and wall mounting Regulatory compliance 3GPP 36.141 / 3GPP 36.113 / GR-487 / GR-1089-CORE / GR-3108-CORE / UL 60950-1 / FCC Part 27 / FCC Part 15 / GR-3178-CORE www.alcatel-lucent.com Alcatel, Lucent, Alcatel-Lucent and the Alcatel-Lucent logo are trademarks of Alcatel-Lucent. All other trademarks are the property of their respective owners. The information presented is subject to change without notice. Alcatel-Lucent assumes no responsibility for inaccuracies contained herein. Copyright © 2016 Alcatel-Lucent. All Rights Reserved . 4x30W with 4T4R or 2x60W with 2T4R Can be switched between modes via SW w/o site visit ALCATEL-LUCENT B25 RRH4X30 Alcatel-Lucent Band 25 Remote Radio Head 4x30W is the new addition of Remote Radio Head to the extended product line of Alcatel-Lucent’s distributed Base Station solutions, aimed at facilitating smooth RF site acquisition and related civil engineering. Supporting 2Tx/4Tx MIMO and 4-way Rx diversity, Alcatel-Lucent B25 RRH4x30 allows operators to have a compact radio solution to deploy LTE in the PCS band (1.9 GHz, 3GPP band 25), providing them with the means to achieve high capacity, high quality and high coverage with minimum site requirements. The Alcatel-Lucent B25 RRH4x30 product has four transmit RF paths, offering the possibility to select, via software only, 2Tx or 4Tx MIMO configurations with either 2x60 W or 4x30 W RF output power. It supports also 4-way Rx diversity, LTE carriers from 3 MHz up to 20 MHz and up to 65 MHz instantaneous bandwidth. The Alcatel-Lucent B25 RRH4x30 is a near zero-footprint solution and operates noise free, simplifying negotiations with site property owners and minimizing environmental impacts. Its compactness and slim design makes the Alcatel-Lucent B25 RRH4x30 easy to install close to the antenna: operators can therefore locate this Remote Radio Head where RF design conditions are deemed ideal, minimizing trade-offs between available sites and RF optimum sites, together with reducing the RF feeder needs and installation costs. FEATURES Supporting LTE in 1.9 GHz band (PCS, 3GPP band 2 & 25) LTE 2Tx or 4Tx MIMO (SW switchable) Output power: Up to 2x60W or 4x30W Ready for 3, 5, 10, 15 or 20MHz LTE carrier operation with 4Rx Diversity Ready to support up to 4 carriers anywhere in 65MHz instantaneous bandwidth Convection-cooled (fan-less) Supports AISG 2.0 devices (RET, TMA) through RS485 or RF ports BENEFITS • Compact to reduce additional footprint when adding LTE in PCS band • MIMO scheme operation selection (2Tx or 4Tx) by software only • Full flexibility for multiple carriers operation over entire PCS spectrum • Improves downlink spectral efficiency and cell edge throughput through MIMO4 • Increases LTE coverage thanks to 4-way Rx diversity capability and best in class Rx sensitivity • Flexible mounting options (Pole or Wall) B25 RRH4x30 ALCATEL-LUCENT DATA SHEET REV1.1 – JANUARY 2015 2 TECHNICAL SPECIFICATIONS Features & performance Number of TX/RX paths 4 duplexed (either 4T4R or 2T4R by SW) Frequency band 3GPP bands 2 & 25 (PCS-G) DL: 1930 - 1995 MHz UL: 1850 - 1915 MHz Instantaneous bandwidth - #carriers 65MHz – Up to 4 LTE carriers (in 40MHz occupied bandwidth) LTE carrier bandwidth 3, 5, 10, 15 or 20 MHz RF output power 2x60W or 4x30W (by SW) Noise figure (3GPP band 2) RX Diversity scheme 2.0 dB typ. (<2.5 dB max) 2 or 4 way Rx diversity Sizes (HxWxD)(w/ solar shield) in mm (in.) Volume (w/ solar shield) in L Weight (w/ solar shield) in kg (lb) 538 x 304 x 182 (21.2” x 12.0” x 7.2”) 30 24 (53) DC voltage range DC power consumption -40.5 to -57V at full performance, -38 to -57V with relaxation on power consumption 580W typical @100% RF load Environmental conditions Wind load (@150km/h or 93mph) -40°C (-40°F) /+55°C (+131°F) IP65 Frontal:<200N / Lateral :<150N Antenna ports 4 ports 7/16 DIN female (50 ohms) VSWR < 1.5 (> 14dB) CPRI ports 2 CPRI ports (HW ready for Rate7 / 9.8 Gbps) AISG interfaces 1 AISG2.0 output (RS485), +24V/2A DC power Integrated Smart Bias Tees (x2) Misc. Interfaces 1 external alarms connector (4 alarms) 4 RF Tx & 4 RF Rx monitor ports 1 DC connector (2 pins) Installation conditions Pole and wall mounting Regulatory compliance 3GPP 36.141 / 3GPP 36.113 / GR-1089-CORE / GR-3108-CORE / UL 60950-1 / FCC Part 27 www.alcatel-lucent.com Alcatel, Lucent, Alcatel-Lucent and the Alcatel-Lucent logo are trademarks of Alcatel-Lucent. All other trademarks are the property of their respective owners. The information presented is subject to change without notice. Alcatel-Lucent assumes no responsibility for inaccuracies contained herein. Copyright © 2014 Alcatel-Lucent. All Rights Reserved . DATA SHEET www.raycapsurgeprotection.com © 2013 Raycap All rights reserved. Features Employs the Strikesorb® 30-V1-HV Surge Protective Device (SPD) specifically designed for the Remote Radio Head (RRH) installation environment and certified for use in DC applications and at low DC operating voltages (48V). • The Strikesorb 30-V1-HV is a Class I SPD, certified by VDE per the IEC 61643-1 standard as suitable for installation in areas where direct lightning exposure is expected. Strikesorb 30-V1-HV is able to withstand direct lightning currents of up to 5kA (10/350) and induced surge currents of up to 60kA (8/20). • Provides very low let through / clamping voltage - unique for a Class I product - as it does not employ spark gaps or other switching elements. Strikesorb offers unique protection levels to the RRH equipment as well as the Base Band Units. • Alarms for SPD sacrifice, Moisture detection and Intrusion. • Fully recognized to the UL 1449 3rd Edition Safety Standard. • Digital Voltmeter with six (6) position switch to monitor each DC circuit (Model RHSDC-3315-PF-48). • Patent pending design Benefits • Offers unique maintenance-free protection against direct lightning currents. • Protects up to 6 Remote Radio Heads and connects up to 12 fiber pairs. • Utilizes an IP 67 rated enclosure, allowing for indoor or outdoor installation on a roof or tower top. • Configurable cable ports are designed to accommodate varying diameters of hybrid (combined power and fiber optic) or standard cables with diameters up to 2" (will fit most standard 15/8" coax class cables) depending upon port configuration. • Lightweight aerodynamic design provides maximum flexibility for tower top installation. • Companion to the RHSDC-1064-PF-48 (Sector) model. G02-00-256 130521 Raycap's flexible Tower, Base Stations and Rooftop protection and Distribution products provide protection for up to 6 Remote Radio Heads/Integrated Antennas. The solutions mitigate the risk of damage due to lightning and provide high levels of availability and reliability to radio equipment. Tower / Base / Rooftop / Rooftop Distribution Models: RHSDC-4750-PF-48 RHSDC-3315-PF-48 Companion Sector Model: RHSDC-1064-PF-48 RHSDC-4750-PF-48 • RHSDC-3315-PF-48 Tower / Base / Rooftop / Rooftop Distribution Models DC Surge Protection for RRH/Integrated Antenna Radio Head Mounting Bracket Included Shown with optional 90˚ elbow for side entry. Can be installed on left or right side of unit. DC1-48-60-18U SPECIFICATIONS www.raycapsurgeprotection.com Electrical Model Numbers RHSDC-4750-PF-48 RHSDC-3315-PF-48 Nominal Operating Voltage 48 VDC 48 VDC Nominal Discharge Current [In]n/a 20 kA 8/20 µs Maximum Surge Current [Imax]n/a 60 kA 8/20 µs Maximum Impulse (Lightning) Current per IEC 61643-1 n/a 5 kA 10/350 µs Maximum Continuous Operating Voltage [Uc] n/a 75 VDC Voltage Protection Rating (VPR) per UL 1449 3rd Edition n/a 400V Protection Class as per IEC 61643-1 n/a Class I SPD Alarm n/a upon sacrifice Intrusion Sensor microswitch microswitch Moisture Sensor infrared moisture detector infrared moisture detector Strikesorb Module Type No Strikesorb modules installed (used as Distribution Unit only) 30-V1-HV Strikesorb modules installed to protect 6 Remote Radio Heads Mechanical Suppression Connection Method Compression lug, #14 - #2 AWG (2 mm2 - 33 mm2) Fiber Connection Method LC-LC Single mode Pressure Equalizing Vent Gore™ Vent Environmental Rating IP 67 Operating Temperature -40° C to +80° C UV Resistant Yes Weight System: 26 lbs (11.80 kg) System: 32 lbs (14.51 kg) Combined Wind Loading 150mph (sustained): 185 lbs (823 N) Standards Compliance Strikesorb modules are compliant to the following Surge Protective Device (SPD) Standards Standards ANSI/UL 1449 3rd Edition IEEE C62.41 NEMA LS-1, IEC 61643-1:2005 2nd Edition (Class I Protection) IEC 61643-12 EN 61643-11:2002 (including A11:2007) Product Diagram [mm] inches AWG=American Wire Gauge G02-00-256 130521 RHSDC-4750-PF-48 • RHSDC-3315-PF-48 Tower / Base / Rooftop / Rooftop Distribution Models DC Surge Protection for RRH/Integrated Antenna Radio Head 61.032.40 486.5119.15 261.9310.31 734.9228.93 399.6215.73 Front Side Bottom CBC626TCBC626T--DLDL--43104310 | | E11F13P04E11F13P04 Twin Diplexer 555-960/1695-2690MHz,DC Low,4.3-10 l Full performance in a fraction of the size l High power handling l Includes 600 MHz and AWS-3/4 bands l New 4.3-10 connectors for improved PIM performance and size reduction l dc/AISG pass-through on low frequency ports l dc/AISG blocking on high frequency ports l Twin configuration l Ideal for small cell applications General Specifications Product Type Diplexer Modularity 2-Twin Electrical Specifications Sub-module 1 | 2 1 | 2 Branch 1 2 Port Designation Port 555-960 Port 1695-2690 License Band TDD 700 USA 750 USA 700 APT 700 CEL 900 CEL 850 LMR 750 LMR 900 AWS 1700 DCS 1800 IMT 2100 PCS 1900 WCS 2300 IMT 2600 TDD 2300 TDD 2600 Electrical Specifications, Band Pass Frequency Range 555–960 MHz 1695–2690 MHz Insertion Loss, typical 0.25 dB 0.25 dB Total Group Delay, maximum 12 ns 12 ns Return Loss, typical 23 dB 23 dB Isolation, typical 50 dB 50 dB Input Power, RMS, maximum 100 W 100 W Input Power, PEP, maximum 1500 W 1500 W 3rd Order PIM, typical -155 dBc -155 dBc 3rd Order PIM Test Method 2 x 20 W CW tones 2 x 20 W CW tones Product SpecificationsProduct Specifications ©©2017 CommScope, Inc. All rights reserved. All trademarks identified by 2017 CommScope, Inc. All rights reserved. All trademarks identified by ® ® or ™ are registered trademarks, respectively, of CommScope.or ™ are registered trademarks, respectively, of CommScope. All specifications are subject to change without notice. See www.commscope.com for the most current information. Revised: April 12, 2017All specifications are subject to change without notice. See www.commscope.com for the most current information. Revised: April 12, 2017 page 1 of 3page 1 of 3 May 18, 2017May 18, 2017 Block Diagram Mechanical Specifications RF Connector Interface 4.3-10 Female RF Connector Interface Body Style Long neck Color Gray Finish Painted Dimensions Height 150.0 mm | 5.9 in Width 150.0 mm | 5.9 in Depth 47.0 mm | 1.9 in Weight 1.8 kg | 4.0 lb Environmental Specifications Operating Temperature -40 °C to +65 °C (-40 °F to +149 °F) Relative Humidity Up to 100% Ingress Protection Test Method IEC 60529:2001, IP67 Product SpecificationsProduct Specifications CBC626TCBC626T--DLDL--4310 | E11F13P044310 | E11F13P04 ©©2017 CommScope, Inc. All rights reserved. All trademarks identified by 2017 CommScope, Inc. All rights reserved. All trademarks identified by ® ® or ™ are registered trademarks, respectively, of CommScope.or ™ are registered trademarks, respectively, of CommScope. All specifications are subject to change without notice. See www.commscope.com for the most current information. Revised: April 12, 2017All specifications are subject to change without notice. See www.commscope.com for the most current information. Revised: April 12, 2017 page 2 of 3page 2 of 3 May 18, 2017May 18, 2017 Outline Drawing Product SpecificationsProduct Specifications CBC626TCBC626T--DLDL--4310 | E11F13P044310 | E11F13P04 ©©2017 CommScope, Inc. All rights reserved. All trademarks identified by 2017 CommScope, Inc. All rights reserved. All trademarks identified by ® ® or ™ are registered trademarks, respectively, of CommScope.or ™ are registered trademarks, respectively, of CommScope. All specifications are subject to change without notice. See www.commscope.com for the most current information. Revised: April 12, 2017All specifications are subject to change without notice. See www.commscope.com for the most current information. Revised: April 12, 2017 page 3 of 3page 3 of 3 May 18, 2017May 18, 2017 PA R T S L I S T NET WT.UNIT WT.LENGTH PA R T D E S C R I P T I O N PA R T N O . QT Y IT E M 12.91 6.46 WA L L M O U N T B R A C K E T X- S 2 5 0 2 1 1.25 0.63 1/ 2 " X 2 - 1 / 2 " X 4 - 1 / 2 " X 2 " U - B O L T ( H D G . ) X- U B 1 2 1 2 2 2 0.14 0.03 1/ 2 " H D G U S S F L A T W A S H E R G1 2 F W 4 3 0.06 0.01 1/ 2 " H D G L O C K W A S H E R G1 2 L W 4 4 0.29 0.07 1/ 2 ' ' H D G H E A V Y 2 H H E X N U T G1 2 N U T 4 5 X2 X2 X2 DE S C R I P T I O N DR A W I N G U S A G E C H E C K E D B Y EN G . A P P R O V A L DR A W N B Y DWG. NO. CP D N O . CE K 1 OF 1 BM C 1 0 / 7 / 2 0 1 0 10 / 7 / 2 0 1 0 SP250 CA N T I L E V E R WA L L MO U N T CU S T O M E R SP250 CL A S S S U B PART NO.PAGE TO L E R A N C E S O N D I M E N S I O N S , U N L E S S O T H E R W I S E N O T E D A R E : SA W E D , S H E A R E D A N D G A S C U T E D G E S ( ± 0 . 0 3 0 " ) DR I L L E D A N D G A S C U T H O L E S ( ± 0 . 0 3 0 " ) - N O C O N I N G O F H O L E S LA S E R C U T E D G E S A N D H O L E S ( ± 0 . 0 1 0 " ) - N O C O N I N G O F H O L E S BE N D S A R E ± 1 / 2 D E G R E E AL L O T H E R M A C H I N I N G ( ± 0 . 0 3 0 " ) AL L O T H E R A S S E M B L Y ( ± 0 . 0 6 0 " ) TO L E R A N C E N O T E S PR O P R I E T A R Y N O T E : TH E D A T A A N D T E C H N I Q U E S C O N T A I N E D I N T H I S D R A W I N G A R E P R O P R I E T A R Y I N F O R M A T I O N O F V A L M O N T IN D U S T R I E S A N D C O N S I D E R E D A T R A D E S E C R E T . A N Y U S E O R D I S C L O S U R E W I T H O U T T H E C O N S E N T O F VA L M O N T I N D U S T R I E S I S S T R I C T L Y P R O H I B I T E D . Engineering Support Team: 1-888-753-7446 valmontLocations:New York, NY Atlanta, GA Los Angeles, CA Plymouth, IN Salem, OR Dallas, TX 1 2 MO U T I N G P I P E OR D E R E D S E P A R A T E L Y 2 3 4 5 TOTAL WT. # 1 3 . 8 4