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DIR-2010-22b CITY OF CUPERTINO 10300 Torre Avenue, Cupertino, California 95014 (408) 777-3308 To: Mayor and City Council Members Chairperson and Planning Commissioners ,r� � From: Aarti Shrivastava, Director of Community Developmen � Prepared by: Colin Jung, Senior Planner Date: June 18, 2010 SuUject: Director's Minor Modification, DIR-2010-22 to allow the upgrade of an existing personal wireless service facility mounted on a PG&E power pole and an associated base equipment station located near the southeast corner of the PG&E corporation yard at 10900 Blaney Avenue. Chapter 19.132 of the Cupertino Municipal Code allows for administrative approval of minor changes in a project. The Director reports his decision to the City Council, Planning Commission and property owners within 1,000 feet to afford interested parties time to appeal the decision within fourteen calendar days. BACKGROUND: The applicant, Liz �;.._ . �' �.' ,. _ �: � � - �`�; � a Zaninovich of = �� - - � `�� "` � " � - _- � �� _ � � . . , _:� .,. --- - �, � , a .� � �� Forzatelecom, � -- � ,� , ..._ L'�. ' . .. �„� :�� y - . . '}' , 1 y . �� f � r ;� .�,.. ' .. representing AT& T -� � - � -- �-'�- : # ' � --. _ � Mobilit , is , ;,��:- . � " �� - , � Y � �' �� r. +, � '� ,� �. y - � . . �.-,,..� . �� proposing to -.��. . s � _ , , ,�► �; �. � _ . t� �#� * �� 1e ��1 � P�^a1P...yrr ^�'.. upgrade an existing � �� «� �� - � 300 ft. � �' ,�,� : �;� p ersonal wireless � �- � ��, -�: � �►� �--- - � I' � �+�� ` aMt ��na:�` � , �� service facility on an "' ��"`� ��4 �. : � �O � � _ �� , ► � _ '.'r' ,�:_ : ��: � . � , ,� ___�,,, existing PG&E power � � ; �' = �� , � _ � �" �A ' . � � N pole and a base , 325 ft. �� y ��'� "� r ' R �� M,:r .� .� , equipment station k. � �= � �� ;�,� .,� ' . C'�"' � �? } .. 2r , located near the � �� `�� .�' � �� _ . , .,,.: '"'',,,,� ,� �. ,� � : . � � �:. <�xf . southeast corner of �� `�••;�" ��'� ��.�-� � _ �. '��.�� the PG&E �� ., � �_. �_��..�,� � _, � - _. �. . ��. , - �� -� _�:......._ �_ _ ��` � � �� p . .. �„ -w � _ + . corporation yard (see . � _ �' ` �� - � �� . � : - �� _ �-,� �s�:$. .� 1 .:� . ._.. - �. _.._ .� .t,=� _ - _ t . �:� - s.� A �=.a � �-� aerial photo). The three existing panel antennas mounted at a height of about 62 feet will be swapped out with three new panel antennas. Two coaxial cables and a ground level equipment cabinet will be added. DIR-2010-22 10900 North Blaney Avenue Page 2 DISCUSSION: Screening Since the existing personal wireless servicE� facilities was built in 1997, the following screening and stealthing enhancements arf� being incorporated in order to be consistent with the City's current Wireless Facilities 1'✓Iaster Plan: • Internalize new coaxial cables insid�� existing cable tray, • Color antennas, mounting hardwar � and cable trays to match the pole color. Radio Frequency Energy (RFE) Assessment An RFE assessment was prepared to evaluate the RFE exposure from the personal wireless service facility against federal saff�ty standards (Attachment 1). The study concluded that the potential general publi�: exposure from RFE, at ground level would be 1.12% of the applicable public limit established by the federal government (1 mw/cm Second floor residential expost�res are less than the ground level RFE exposure as the nearest residences are 300 feet or more away from the antennas. A supplement RFE assessment was provic ed by Clearwire that also accounts for the RFE exposures from the recently approvecl Clearwire facility adjacent to the AT&T facility. The report concluded that the aggregate exposure of two facilities is 6.8% of the acceptable public limit. ACTION: The Director of Community Development deems the modification minor and approves the wireless facility upgrade with the following conditions of approval. State law requires a minimum 10-year permit for personal wireless service facilities. 1. APPROVED EXHIBITS Approval is based on Exhibits titled: "IJU0501/CNU3327/Vallco Shopping Center/ 10900 North Blaney Avenue/ C'upertino, CA 95014" prepared by Borges Architectural Group dated 05/20/10 a:1d consisting of eight sheets labeled T-1, T-2, A1 through A-3, RF-1, D-1 and D-2, exc:ept as may be amended by the conditions contained in this resolution. 2. NOTICE OF FEES, DEDICATIONS, R�:SERVATIONS OR OTHER EXACTIONS The Conditions of Project Approval set forth herein may include certain fees, dedication requirements, reservation r��quirements, and other exactions. Pursuant to Government Code Section 66020(d) (1;, these Conditions constitute written notice of a statement of the amount of such fees, and a description of the dedications, reservations, and other exactions. Yc u are hereby further notified that the 90-day approval period in which you may pr��test these fees, dedications, reservations, and other exactions, pursuant to Government Code Section 66020(a), has begun. If you DIR-2010-22 10900 North Blaney Avenue Page 3 fail to file a protest within this 90-day ��eriod complying with all of the requirements of Section 66020, you will be legally ba�•red from later challenging such exactions. 3. ABANDONMENT If after installation, the aerial is not us��d for its permitted purpose for a continuous period of 18 months, said antennae an d associated facilities shall be removed. The applicant shall bear the entire cost of d��molition and removal. 4. STEALTHING REQUIREMENTS The antennas, mounting hardware and cables visible from public rights-of-way shall be colored to match the power pole. Cables shall be internalized within the pole whenever feasible. 5. EXPIRATION DATE This Director's Minor Modification sh�.11 expire ten (10) years after the effective date of the permit (June 18, 2020). The ap��licant may apply for a renewal of the minor modification at which time the Director of Community Development may review the state of wireless communication and camouflage technologies to determine if the visual impact of the personal wireless facility can be reduced. This Director's approval is effective June 1�, 2010. The fourteen calendar day appeal period will expire on July 2, 2010. Enclosures: Attachment 1: Radio Frequency Analysis /AT&T Mobility/Site# SF0501/10900 North Blaney Avenue,/Cupertinc�, CA 95014/By: Evan Wappel/Date 5/28/2010 Attachment 2: Statement of Hammett & F;dison, Inc., Consulting Engineers, on compliance with FCC stan�ards for RFE exposure for the Clearwire, LLC Proposed Base Station (Site No. CA-SJC0126A), 10900 North Blaney Avenue, Cupertino, Califol nia". Attachment 3: Plan Set Attachments are available in the Planning Department and also may be viewed at the City's website at w��.cu��er Sel��ct the link to "Records°, then select the "Planning Department" folder, the "DIR p.pprovals" folder, the "2010" folder and then file "DIR-2010-22b." G: / Planning/ PDREPORT /DIRreports /2010 / DIR-2010-:'.2.doc :� at&t ATTACHMENT 1 Radio Freq�ency Analysis AT&T Vlobility Site# SF0501 10900 North 3laney Avenue, Cupertinc�, CA 95014 By: Eva�i Wappel Date 5� 28/2010 D I 1Q oZ0 l0 ^.�� . r e ., .�1�+ d ,., }` l 4� S� � d" ��br�' 7�1 �� t ' . � l �. .) �"�. �� . � � �� 1 '...+��,..au. I . C� f �� ..` ^d�fl. � Page 1 of 8 � at&t Report Summary Based upon information provided by AT&T Mobilit� and the design engineer, and using the calculated method for determining RF field strength, it is the engineer's opinion that the AT&T Mobility site located at 10900 North Blaney Avenue, Cupertino, CA 9501� complies with the FCC's current prevailing standard for limiting human exposure to RF energy. Due to the mounting method utilized, the general � ublic is not able to approach the antennas. Therefore, no significant impact on the general population is expected. The calculated electromagnetic field strength level in publicly accessible areas is less than the existing standard allows for exposure of unlimited duration. Additionally, due to the mounting method used, no significant impact on the environment is expected. For personnel who work within 11' of the face of ar antenna, a training program in exposure to RF fields is recommended. Maintenance personnel should bE� instructed to contact the appropriate Carrier prior to working in front of an antenna. Recommended Signage There is no requirement for AT&T Mobility RF "Notice" signs because the EME levels in all public areas are below the FCC Public exposure limit. Background Evan Wappel is the Market RF Safety Coordinator fc�r AT&T Mobility and is responsible for conducting a Radio Frequency (RF) electromagnetic analysis for the AT&T Mobility site located at 10900 North Blaney Avenue, Cupertino, CA 95014. This analysis consists of a review of the existing site conditions, calculation of the estimated RF field strength of the antennas, and the provision of a comparison of the estimated field strength with the Federal Communi:ation Commission (FCC) recommended guidelines for human exposure to RF electromagnetic fields. D� f�1 oZo 1 ��.., �, ;: ' ° '�` � e-' :+� 1 , s ��-T 1i.r t'��ar < < . __. �.�1� � � : �.� �- �'� �- . , ... . �,� �. .�,�3 rr��'`� ` L�kR� D Page 2 of 8 � � at&t Site Description Based upon the information provided by AT&T Mok►ility, 6 AT&T Mobility panel antennas are mounted on a tower. The antennas are mounted approximat�ly 58' (to bottom of antennas) above ground level. The antennas are oriented such that the main lobe� are pointed toward the horizon. Normal public access to the front of the antennas is not expected due to the mounting location and method utilized. Occupational access to the front of the antennas is not normally expected. AT&T is planning to add a 3� carrier of UMTS technology. RF Field Strength Calculation Methodology A generally accepted method is used to calculate the expected RF field strength. The method uses the FCC's recommended equation which predicts field �trength on a worst case basis by ( 2) 2 PG PG EIRP S = _ _ 4�R �R �R doubling the predicted field strength. The following equation is used to predict maximum RF field strength: Where: S = power density P= power input to the antenna G= power gain of the antenna in the direction of interest relative to an isotropic radiator R= distance to the center of radiation of the antenr�a �112�.20t 0'rZ� ,: R � „�_'` 4: : � ' 3�� :, � . ��:�.�� .. . �"'.' i � � � t :_ _aa `: �� ' � {' � � .s"��" 't.yP r � , � � s . r �2. Page 3 of 8 � � at&t EME Levels The ground level effect of the AT&T Mobility emissi��ns was calculated using a maximum ERP of 2,644 watts. Results were calculated for a height of 6' above ground level. Using these factors, the maximum calculated AT&T Mobility fields at ground level are :_.12% of the existing standard for general population uncontrolled exposure. See Table 1 for the FCC's guidelines on Maximum PE�rmissible Exposure (MPE). Note that the RF ranges referenced for this analysis are the ranges of 300 — L500 Mhz, and 1500 —100,000 Mhz shown in Table 1, which is included in Appendix A. Exposure Environments The FCC guidelines incorporate two separate tiers of exposure limits that are dependent on the situation in which the exposure takes place and/or the status of the individuals who are subject to exposure. The decision as to which tier applies in a given situation should be based on the application of the following definitions. Occupational/controlled exposure limits apply to situations in which persons are exposed as a consequence of their employment and in which those persons who are exposed have been made fully aware of the potential for exposure and can exercis� control over their exposure. Occupational/controlled exposure limits also apply �Nhere exposure is of a transient nature as a result of incidental passage through a location where expos� re levels may be above general population/uncontrolled limits (see below), as long as the exposed person has been made fully aware of the potential for exposure and can exercise control over his or her exposure by leaving the area or by some other appropriate means. General population/uncontrolled exposure limits a��ply to situations in which the general public may be exposed or in which persons who are exposed as a�;onsequence of their employment may not be made fully aware of the potential for exposure or cannot ��xercise control over their exposure. Therefore, members of the general public always fall under thi � category when exposure is not employment- related. For purposes of applying these definitions, awareness of the potential for RF exposure in a workplace or similar environment can be provided through specii ic training as part of a RF safety program. Warning signs and labels can also be used to establish such awareness as long as they provide information, in a prominent manner, on risk of potential exposure ard instructions on methods to minimize such exposure risk. For example, a sign warning of RF ex�►osure risk and indicating that individuals should not remain in the area for more than a certain period o1�time could be acceptable. ��'o �' �'' � ° Page 4 of 8 " � ,�,�'� +.-r ;'g�6�i<•�� _ '"` ' `� � �. _ ::.� , �.:. . . . , a .P ^ � �'"' � _�{�.a�� '� ,� �;�; _��,�`.��'f'.�e`��'' . �R. � at&t Another important point to remember concerning the FCC's exposure guidelines is that they constitute exposure limits (not emission limits), and they are r��levant only to locations that are accessible to workers or members of the public. Such access can be restricted or controlled by appropriate means such as the use of fences, warning signs, etc., as noied above. For the case of occupational/controlled exposure, procedures can be instituted for working in the vicinity of RF sources that will prevent exposures in excess of the guidelines. An example of such procedures would be restricting the time an individual could be near an RF source or requiring tfiat work on or near such sources be performed while the transmitter is turned off or while power is apprc►priately reduced. Qualifications of Reporting Engineer Mr. Wappel has been involved in the analysis of RF �missions since 1999. He has designed numerous RF systems including both site design and RF system dE�sign. He is an Electrical Engineer, and all contents of this report are true and correct to the best of his kn�wledge. d` Si ned: �G�� Date: 5 28 2010 g �� Evan Wappel, BSc,EE. �►��—ao�o-�� ;. � � �:� �-; �;er,�,� ; , �, •,�, , � 1�� Page 5 of 8 :�:r. .� , � ; a' . .� �.��.. � .� � �';t s:' , i� � �. € r�" � 't`'� Tdg � �. �=� at&t �� APPENDIX A Term & Definitions Exposure: Exposure occurs whenever and wherevei a person is subjected to electric, magnetic or electromagnetic fields other than those originating From physiological processes in the body and other natural phenomena. Exposure, partial-body: Partial-body exposure results when RF fields are substantially non-uniform over the body. Fields that are non-uniform over volumes comparable to the human body may occur due to highly directional sources, standing-waves, re-radia�:ing sources or in the near field. General population/uncontrolled exposure: For FCC purposes, applies to human exposure to RF fields when the general public is exposed or in which persons who are exposed as a consequence of their employment may not be made fully aware of the pc�tential for exposure or cannot exercise control over their exposure. Therefore, members of the general public always fall under this category when exposure is not employment-related. Maximum permissible exposure (MPE): The RMS a �d peak electric and magnetic field strength, their squares, or the plane-wave equivalent power densi�:ies associated with these fields to which a person may be exposed without harmful effect and with ar acceptable safety factor. Occupational/controlled exposure: For FCC purposes, applies to human exposure to RF fields when persons are exposed as a consequence of their em� loyment and in which those persons who are exposed have been made fully aware of the potential for exposure and can exercise control over their exposure. Occupational/controlled exposure limits ;�Iso apply where exposure is of a transient nature as a result of incidental passage through a location where exposure levels may be above general population/uncontrolled limits (see definition abov��), as long as the exposed person has been made fully aware of the potential for exposure and can e�ercise control over his or her exposure by leaving the area or by some other appropriate means. �' I�'' 201 � �'i�.'� E . I, � ._ ��rd '�� , ._ � : k; , ,,, � �� r Page 6 of 8 <;� e o... �; b;- . � �.� r ' �y ,_,._.�!��".�c� � � �° � �,� �� ,J �� ►�'"`�' �i s F#. � at&t � Table 1 LIMITS FOR MAXIMUM PEI2MISSIBLE EXPOSURE (MPE) (A) Limits for OccupatiouaUControlled Ex� �osure Frequency Electric Field Maguetic Field Po�ver Densiry Av�ra�ing Tiuie Ran�e Sn�eu�tli (E) Strengtl� (H) (S) �E�'. �H'I`' or S (niHz) (�'/iu) (A/m) (mW.%cin�) (miinites) 0.�-�.0 614 1.6� (100)* 6 �.0-�0 184�'f 4.89'f (900'f`)* 6 30-300 61.4 0.163 1.0 6 �00-1500 -- -- fi�00 6 1500-100,000 -- -- S 6 (B) Limits foi• Genei•al Population/L?ncontrc�lled Egposui•e F1'�(1L1�I1Cy Electric Field MaQueti: Field Power Density AveraginQ Tuue Ranee Strength (E) Streiigtl� (H) (S) �E�`. �HI` or S (MHz) (�"/m) (Alm) (niWicm`) (nunutes) 0.3-1. �4 61=� 1.63 (100)* :0 1.3=�-30 S24%f 2.19%'f (180%f' 30 i0-i00 27.5 0.07i 0? i0 i00-1500 -- -- f:1500 �O 1500-100.000 -- -- 1.0 �0 f= fi�equency iu I�1Hz *Plane-��ave equivalent po�ver densit�,' NOTE 1: Occupational/controlled limits apply in situations in which persons are exposed as a consequence of their employment provided those �ersons are fully aware of the potential for exposure and can exercise control over their exposure. Limits for occupational/controlled exposure also apply in situations when an individual is transient through a location where occupational/controlled limits appty provided he or she is made aware of the potential f��r exposure. NOTE 2: General population/uncontrolled exposures apply in situations in which the general public may be exposed, or in which persons that are exposed a�; a consequence of their employment may not be fully aware of the potential for exposure or can not exercise control over their exposure. ��Q' �o"�� .,, �, � � y �� - 1a-�- " � `��r ., �, �� Page 7 of 8 ' .,. :'� ; � '.� r > ��.... _� _,. —�-.. � ,r I/ f r :t`�, : :?°�+ �,"``', ��"" ' �� ; �= at&t Site Diagram: �1 ovew�u PDYER LINES _ �� ►wP �) �r�tau wirH (►y ANTENNA ON P051TON I fTOPI `' M!D P051TION Z fB01TOM) (El PbIE TOYER � I f 4� � �� $ � � h � �� (EJ co►muiT eox �r+� (4� 5P�.1T DI,GT D1R- aot�--�2 �.1._� � _1'C� '=T :;. .. a �„,� _ < ._ �� Page 8 of 8 � ..`. ' +'`?k ? �' f" . �'J�t'=�- ATTACHMENT 2 Clearwire, LLC • Proposed B�se Station (Site No. CA-SJC0126A) 10900 North Blaney Avenue • Cupertino, California Statement of Hammett & Edison, Inc., Consulting Engineers The firm of Hammett & Edison, Inc., Consultiiig Engineers, has been retained on behalf of Clear�vire, LLC, a personal wireless service provider, tcr evaluate the Uase station (Site No. CA-SJC0126A) proposed to be located at ] 0900 North Blaney Avenue in Cupertino, California, for compliance with appropriate guidelines limiting human exposure: to radio fi•equency ("RF") electromagnetic fields. Prevailing Exposure Standards The U.S. Congress requires that the Federal Communications Commission ("FCC") evaluate its actions for possible significant iinpact on the enviromnent. In Docket 93-62, effective October 15, 1997, the FCC adopted the human exposure lir:lits for field strength and power density recommended in Report No. 86, "Biological Effects and E�posure Criteria for Radiofrequency Electromagnetic Fields," published in 1986 by the Congression�lly chartered National Council on Radiation Protection and Measurements ("NCRP"). Separate limits apply for occupational and public exposure conditions, with the latter limits generally five times more :•estrictive. The more recent standard, developed by the Institute of Electrical and Electronics Engir eers and approved as American National Standard ANSI/IEEE C95.1-2006, "Safety Levels witli Respect to Huinan Exposure to Radio Frequency Electromagnetic Fields, 3 kHz to 300 GHz," :ncludes similar exposure limits. A summary of the FCC's exposure limits is shown in Figure l. These limits apply for continuous exposures and are intended to provide a prudent margin of safe:y for all persons, regardless of age, gender, size, or health. The most restrictive FCC limit for exposures of unlimited duration to radio frequency energy for � several personal wireless services are as follow:�: Personal Wireless Service Apur��x. Frequencv Occupational Limit Public Limit Broadband Radio ("BRS") 2,E 00 MHz 5.00 mW/cm 1.00 mW/cin'- Advanced Wireless ("AWS") 2,J00 5.00 1.00 Personal Communication ("PCS") 1,5�50 5.00 1.00 Cellular Telephone � � 70 2.90 0.58 Specialized Mobile Radio ("SMR") f 55 2.85 0.57 Long Term Evolution ("LTE") � 00 2.33 0.47 [most restrictive frequency range] 30-300 1.00 0.20 Power line frequencies (60 Hz) are well belovr the applicable range of these standards, and there is considered to be no compounding effect fruin simultaneous exposure to power line and radio frequency fields. HAMMETT & EDISON, INC. ►� ��a�� o�� COI�'SULTII�IG ENGINEERS Cw� 126596.1 SAN FRANCISCO � ��/ � Page 1 of 4 v � v-�� ,�r � � Clearwire, LLC • Proposed Base Station (Site No. CA-SJC0126A) 10900 North Blaney Avenue • Cupertino, California General Fac ility Requirements Base stations typically consist of two distinct p�rts: the electronic transceivers (also called "radios" or "channels") that are connected to the traditional wired telephone lines, and the passive antennas that send the wireless signals created by the radios out to be received by individual subscriber units. The transceivers are often located at grotmd level and are connected to the antennas by coaxial cables about 1 inch thick. Because of the short wavelength of the frequencies assigned by the FCC for wireless services, the antennas require line-of-:;ight paths for their signals to propagate well and so are installed at some height above ground. The ar;tennas are designed to concentrate their energy toward the horizon, with very little energy wasted tow;ird the sky or the ground. Along with the low power of such facilities, this means that it is generally not possible for exposure conditions to approach the maximum permissible exposure limits without being physically very near the antennas. Computer Modeling Method The FCC provides direction for determining a�mpliance in its Office of Engineering and Technology Bulletin No. 65, "Evaluating Compliance wi�h FCC-Specified Guidelines for Human Exposure to Radio Frequency Radiation," dated August 1997. Figure 2 attached describes the calculation methodologies, reflecting the facts that a directional antenna's radiation pattern is not fully formed at locations very close by (the "near-field" effec;) and that at greater distances the power level from an energy source decreases with the square of :he distance from it (the "inverse square law"). The conservative nature of this method for evaluating exposure conditions has been verified by numerous field tests. Site and F �cility Description Based upon information provided by Clearwire, including zoning drawings by Delta Groups Engineering, Inc., dated December 22, 2009, i: is proposed to mount three Kathrein Model 840-10054 directional panel antennas on a new 55-foot pole, configured to resemble a pine tree, to be sited next to the PG&E substation located at 10900 North Blaney Avenue in Cupertino, alongside Highway 280. The antennas would be mounted with 2° dowi� tilt at an effective height of about 53 feet above ground and would be oriented at about 120° spacinL;, to provide service in all directions. The maximum effective radiated power in any direction would be about 970 watts. Also proposed to be mounted on the same pole are three microwave "dish" antennas, for interconnection of this site with others in the Clearwire network. Presently located on another pole about 75 fee: to the southeast are similar antennas for use by another wireless telecommunications carrier. For the limited purpose of this study, that carrier is assumed to be Verizon Wireless, with Andrew Model 731 DG65 dualband antennas mounted at an effective height HAMMETT & EDISON, INC. Q I� �') � � CW0126596.1 -' CONSULTII�IG ENGINEERS � � � Page 2 of 4 _ SAN FRANCISCO �, � � � �-� .; . � � � .�, ,� Clearwire, LLC • Proposed B��se Station (Site No. CA-SJC0126A) 10900 North Blaney A��enue • Cupertino, California of about 26 feet above ground and operatin; with a maximum effective radiated power in any direction of 3,000 watts, representing simulta ieous operation at 1,500 watts each for PCS and for cellular service. Stu��y Results For a person anywhere at ground, the maximi.m ambient level of RF eaposure due to the proposed Clearwire operation by itself, including the contributions of the microwave antennas, would be 0.0025 mW/cm which is 0.25% of the applic�ible public limit. The maximum calculated cumulative level anywhere at ground, for the simultaneous operation of both carriers, is 6.8% of the applicable public limit. It should be noted that these •esults include several "worst-case" assumptions and therefore are expected to overstate actual powe • density levels. No Recommend :d Mitigation IVleasures Due to their mounting locations, the Clearwire antennas would not be accessible to the general public, and so no mitigation measures are necessary to comply with the FCC public eYposure guidelines. It is presumed that Clearwire will, as an FCC licen �ee, take adequate steps to ensure that its employees or contractors comply with FCC occupational eaposure guidelines whenever work is required near the antennas themselves. Cc►nclusion Based on the information and analysis above, i: is the undersigned's professional opinion that the base station proposed by Clearwire, LLC at 1090(i North Blaney Avenue in Cupertino, California, will comply with the prevailing standards for limiting public exposure to radio frequency energy and, therefore, will not for this reason cause a:;ignificant impact on the environment. The highest calculated level in publicly accessible areas is much less than the prevailing standards allow for exposures of unlimited duration. This findin; is consistent with measurements of actual exposure conditions taken at other operating base station �. HAMMETT & EDISON, INC. ��l�� oZOIA "oZ � CW0126596.1 CONSULTING ENGINEERS SAN FRANCISCO � Page 3 of 4 �/i�� i--(� .� � . � �� Clearwire, LLC • Proposed Base Station (Site No. CA-SJC0126A) 10900 North Blaney Avenue • Cupertino, California Aiathorship The undersigned author of this statement is a qualified Professional Engineer, holding California Registration Nos. E-13026 and M-20676, which expire on June 30, 2011. This work has been carried out under his direction, and all statements are true and correct of his own knowledge except, where noted, when data has been supplied by others, ��+hich data he believes to be correct. Q�� F ��,�fi ` � .� E-13028 � � W� � U P � � � M-2o676 �n William F. Ham tt, P.E. January 4, 2010 d �. 6-30-2011 � , �' �C p�1G�� `'� A �� cA��° . HAMMETT & EDISON, INC. � l �� °� � 0' a� �� corrsut.�ruvcFNCU�r�Exs ' CW0126596.1 _ SAN FRANC15C0 �' �� v � Page 4 of 4 �� t� � �� FCC Radio Frequency Protection Guide The U.S. Congress required (1996 Telecoin A�t) the Federal Coinmunications Cominission ("FCC") to adopt a nationwide human exposure standar�i to ensure that its licensees do not, cumulatively, have a significant impact on the environment. The F CC adopted the limits froin Report No. 86, "Biological Effects and Exposure Criteria for Radiofreque icy Electromagnetic Fields," published in 1986 by the Congressionally chartered National Council on Radiation Protection and Measurements ("NCRP"). Separate limits apply for occupational and public exposure conditions, with the latter liinits generally five times more restrictive. The inore recent standard, developed by the Institute of Electrical and Electronics Engineers and approved as American National Standard ANSI/IEEE C95.1-2006, "Safety Levels with Respect to Huinan Exposure to Radio Frequency Electromagnetic Fields, 3 kHz to � 300 GHz," includes siinilar limits. These liinits apply for continuous exposures from all sources and are intended to provide a prudent inargin of s� fety for all persons, regardless of age, gender, size, or health. As shown in the table and chart below, separ�te limits apply for occupational and public exposure conditions, with the latter liinits (in italics and/c�r dashed) up to five tiines inore restrictive: Frequencv Electroinagnetic Fields (f is frequencv of emission in MHzL Applicable Electric Magnetic Equivalent Far-Field Range Field Strength Field Strength Power Density (MHz) (V/m) (A/m) (mW/cm'') 0.3 — 1.34 614 614 1.63 1. 63 100 ] 00 1.34— 3.0 614 823.8/ � 1.63 2.19/f 100 180/f' 3.0 — 30 1842/ f 823.8/_� 4.89/ f 2.19/f 900/ f' 180/,J' 30 — 300 61.4 27.5 0.163 0.0729 1.0 0.2 300 — 1,500 3.54�f 1.59fJ �f/106 �f/238 f/300 f/IS00 1,500 — 100,000 137 61.4 0.364 0.163 5.0 1.0 1000 / Occupational Exposure 100 •� PCS ., � 3 Y �� Cell •�\ 10 � FM o � 3 � a Q � 1 � � �� 0.1 Pccblic Exposure 0.1 1 10 100 10 10 10 F��equency (MHz) Higher levels are allowed for short periods of time, such that total exposure levels averaged over six or thirty ininutes, for occupational or public settings, respectively, do not exceed the limits, and higher levels also are allowed for exposures to small areas, such that the spatially averaged levels do not exceed the limits. However, neither of these al .owances is incorporated in the conservative calculation forinulas in the FCC Office of Engineering and Technology Bulletin No. 65 (August 1997) for projecting field levels. Haminett & Edison h�is built those fonnulas into a proprietary program that calculates, at each location on an arbitrary rect �ngular grid, the total expected power density from any nuinber of individual radio sources. The prog -ain allows for the description of buildings and uneven terrain, if required to obtain more accurate proj �ctions. HAMMETT & EDISON, INC. D IK"o��IO' �%� - coNSUL�r�rc Errci�Exs ////// � ' FCC Guidelines SAN FRANClSCO L � / f� � /� Figure 1 C / �� ►?�k� L � � ;�^�` �� RFR.CALC C�Iculation Methodology Assessment by Calculation of Compliance with FCC Exposure Guidelines The U.S. Congress required (1996 Telecom Act) the Federal Communications Con�unission ("FCC") to adopt a nationwide huinan exposure standard to ensure that its licensees do not, cumulatively, have a significant impact on the enviromnent. The maximum pennissible exposure liinits adopted by the FCC (see Figure 1) apply for continuous exposures froin all sources and are intended to provide a prudent margin of safety for all persons, regardless of a�;e, gender, size, or health. Higher levels are allowed for short periods of time, such that total expo �ure levels averaged over six or thirty minutes, for occupational or public settings, respectively, dc not exceed the limits. Near Field. Prediction inethods have been developed fo:� the near field zone of panel (directional) and whip (omnidirectional) antennas, typical at wirele:;s telecoinmunications base stations, as well as dish (aperture) antennas, typically used for inicrow� ve linlcs. The antenna patterns are not fully formed in the near field at these antennas, and the FCC �ffice of Engineering and Technology Bulletin No. 65 (August 1997) gives suitable fornzulas for calci�lating power density within such zones. (� _ 100 0 • 1 X Pne[ 111W 2 For a panel or whip antenna, power density ,�j — e x� x D x h' in /cin , sw �. 1x16xr�xP net ln`7�1 2 and for an apei antenna, maximum power clensity S max — � x hz , in /cm , where 6gW = half-power beainwidth c�f the antenna, in degrees, and Pnet = net power input to the sintenna, in watts, D= distance from antenna, in meters, h= aperture height of the a�itenna, in ineters, and r� = aperture efficiency (unitless, typically 0.5-0.8). The factor of 0.1 in the numerators converts tc the desired units of power density. Far Field. OET-65 gives this fornzula for calculating pow�:r density in the far field of an individual RF source: 2.56 x_.64 x l00 x RFF x ERP mW z power density s = , in /cm , 4x,rtxD where ERP = total ERP (all polarizations), in lcilowatts, RFF = relative field factor at the d.rection to the actual point of calculation, and D= distance from the center of radiation to the point of calculation, in meters. The factor of 2.56 accounts for the increase n power density due to ground reflection, assuining a reflection coefficient of 1.6 (1.6 x 1.6 = 2.56). The factor of 1.64 is the gain of a half-wave dipole relative to an isotropic radiator. The factor o� 100 in the numerator converts to the desired units of power density. This formula has been built in:o a proprietary program that calculates, at each location on an arbitrary rectangular grid, the total ex��ected power density from any number of individual radiation sources. The prograin also allows for the description of uneven terrain in the vicinity, to obtain more accurate projections. �IAMMETT & EDISON, INC. � � �" �� ^!�o� Methodology CONSULTING ENGINHERS ff ! .. sntv r•a�c�sco //�� Figure 2 C�/ � n ��. �-�j � �'L :me,:ke - .....,..�...:�u-� _ ;- � �_� � . � � � �,,--��,-��.�, %! I`v'E'., ��i�. J , . (-�, , � ., ; �� r�, , �G� 1�Ornl�� ' C��J0�01 / �NU3327 VALL�(� S��P��.l'�� EIoTTEiz 10900 NOR'I'H BLANEY �`'ENUE CUPERTINO, CA 95014 Jurisdiction: C�TY OF CUPER'I'Il�O PR�JECT DESCRIPTION MODIFIU�TION TO F.XISTI116��A+MNIED TELEGOMiJ1iGAT10N5 FAULIIY. � M EX15TIN6 ANiH�Nd►S IN Pi051TI0N I A10 2 FOR SEGtORS A, B, tG TO 6 PORT ANft8t1A5. ADD2 LII�ES OF GO/UQAL GA�.E AND A550GIATED FIOIf�li6. ADD 3 I�MOTE 9.6GTRK,N. TILT l�tlT5 TO T!E ANTEI�NA5 AW I WAI. TOYER MOIAITED Mi�I.IFIERS. ADD OIE 3106 GAP"IEi TO E7a5fi16 EfilIP1�M SfELTER P S 0 s C '•• TFFSF ORAYM►Kfi NAVF i�FN PRffI7r.FfllKINS lff CJ�WT RFDS A2A01() FR6Q�JiGY DATA SIfETS), 7}� REVIr.�ION UAiE OF 1f Rf.DS.JFED FOR iNI5 PFtp,�T 15, vER 63, ADD ►6N IAtTS ID. ; CODE COMPLIANCE ! ,�u. woiac �wo rM�w,a�5 sE+�u. ee �w-aa�v N+v n�sr� iN �cco�� wTM nf cu�a�r EGTtON5 OF T►E POLI.CMtlN6 CODES A5 ADOPiED BY 1►E LOG/1L 60�/ERwN6 �u�11oRITIES. NOTMN6� M iFESE PlAN5 IS TO � GOtGiAI�D TO PEI�11T Y�7RIC NDT GOtFUtAIINb t0 TFESE GODE�.�. i. c,tiu�w� �or�5rnnnvE cooes Onct.. nn.e5la i a51 �ooi 1. GALIFO�WA �IILDIN6 GODE 3A01 3. GAI.IFOR�A 6.ELTRIGAL GODE 1i001 � 4. GALIFORltlA t�EGHAMLAL GOpE Zp0'1 5. GAIIFORNIA Pt�lA�81N6 GODE100'1 b. GALIFOiaYA FIRE LOpE10p7 l. AN51 / EIA-TIAl2�•R 8. INTERNATIONAL dJILDIN6 GODE 10W a. w�Taw. aecr�. cave �oos �o. �oab r�� ia, �� s�rr cooE II. 2001 IFPA 72. NATIONAL FIRE AIAF�A GODE 12. 2Q01 lFPA 13. FIRE �RINCL� LODE �3, LOGM. dl�Dn16 GLDE � is. u�r i caertY or�rnw�+cEs � �wr� wn+ Nrr on+� �� acK �uo sr�re ur6 �w r�buunons %� OCCUPAiVCY AND CORISTRUCTiON TY�E � E 0 z occuP�ncr , u A�►+�rrEVl c GON��TFEJGTION TYPE, V$ > a � HANDIGAP REG�JIREMENTS 0 o F/�lAIfY IS UMAN�p A!p NpT FpR H1�IAN FiNBITATIOt� HAF�IGAPPED AGGEY� +NG REGUIf�MENTS AI� o NOT REQARED, IN AGGORDANGE wTN GALIFOFauA STATE AOMwSTRArNE GWE. P?RT 1, mLE �4. � 5EL110N 110583.�2, ExG@'TION I a VICINITY MAP s ' _ � a�..,w��5-�, .. ._.__. .. . �. ?: .:�� $� �. . ,., _ � ,,� ; . ,. , .� . �'' '�, � , PR�OJECT lNFORAAATION ,.. �.. „ .��..�..� - �I�... _. .._•:l ,,� DIRECTIONS FROM AT&T DIREC,TIOMS FROM ATi T'S OFFIGE AT 4430 RQSEWUpD DRIVE. PLEASANTON, GA I. HEAD EAST ON RO�.�EMIDOD DR TOWARD OLD SANTA RITA RD Z. TURN LEFT AT SANTA RITA RD 3. MER�C�E ONTO �-5b0 W VIA THE RAMP TO OAKLAND �4, TAKE TFE EXIT ONTO I-680 5 TOYIARD 5AN JOSE 5. CANTINIE ONTO I�80 N b. TAKE TFE DE /WZA 6LVD EXIT l. A1RN RIGHT AT N DE ANZA BLVD 8. TAKE THE 2ND RIGHT ONTO E HOMESTEAD RD q, TU2N RIGHT AT N BLANEY AVE 10. TAKE THE IST LEFT TO STAY ON N BLANEY AVE DESTINATION WILL BE ON THE RIGHT GENERAL CONTRACTOR NOTES DO NOT SGALE DRAWINGS T}1(�E �RAY�M55 ARE FORMATiED TO BE FllLL SIZE AT 24' x 36'. CAHiRAGtOR SMALL VERIFY ALL PLN6 At0 E%15TIN6 q� AND GONDI710N5 ON TFE JOBS�TE AW SHALL IM�EDIA?ELY NOTIFY 11E /1RLHITEGT/EN611EER IN YRITB�k'a OF ANY D15LREPMILIES BEFORE PRQGEEDIN6 YtlTH Tf# MI�RK OR MA7ERIAL ORDERS OR � RESPbl6IBLE `OR T►E aAhE. � Property Infnrmatiorn Site Nama: VALLGO SHOFPING GENTER 5ite tLmbar: G�10501 / GM13321 Site Add'es5: 10900 NORTH NLANEY AVENIE GUPERTINO, GA 95014 A.PN. h'urt�er: A.F.N. i�MOER Gurrent Zonir�y: TELEGOMMINIGATONS ,lurisdiction: GITY OF �RTINO Lattitude: 31.334q0 LorKjitude: -122.Q2100 Elevo!ion: 18l FT (A51.) Property Owner� PGtE �'1 13FAI' �TRFFT SAN FrZ�NGl5G0, i,A 941'1l (8001 '143-5000 PoWer A�ency� PGdE �l BEALE STREET SAN FRANSISGO, GA 94111 ph: (9oa)1a3-5oo0 relephoree Agency� ATdT CALIFORNIA 525 MARKE? SiREET 5AN 'rRaN515G0, GA 94105 ph: l8C0) 3!O 2355 PROJECT TEAM Ericsson Constructiorn ERIGSSON ING. blb0 STONERIDGE MALL ROAD, `�11TE 400 PLEASANTON,GA 94568 contpct: CANTAGT ertioil: �» � ph: . . iax: 619-49'1-1684 Applicant / Lessee� AidT 4430 RO�.�EYIOC)D DRIVE, BLDG 3 PLEASANTON, GA 9458b errwil: jefF,leber�eriGSSOntan cell: (925) l�1-5845 Site Aquisitiorn FORZATELEGOM i390 rroRn� BROAVwnr, SuirE 2io INALNIT GREEK GA 945�16 contat: GANDIS HARRINGTON ertail: candiSYn^re�ton9Formtelecomtom cell: (425) 451-5664 Fax: (425) 401-8263 Architect� BORGES ARGHITEGNRAL GRpJP. ING. 14'18 STONE POINT pRIVE, SUITE 350 ROSEYILLE, GA 95661 contact: SANDELL VONb amail: scridell@borgesarchtom ph: (916) l9Z-1200 fax: (916) 173-3031 Structural Engineer� APEX ENGINEERING 482 WEST HAMILTON AVQiIE 339 GAMPBELL, GA 95008 contact: THOMAS J. YATES, PE. emall: aPexer�2@c�npll.t,om ph: (408) 3'18 �068 fax: (408) 318-4G02 SHEET INDEX T-I TITLE SF�ET T-1 6@Ht/� NOT� A-I OVERAIL SIIE PIJW -- A-� EH.ARGED SITE PLAN, EQJIPM A-3 SITE �EVATIOPS RF-I RF. DETAILS D-I GONNEGTION APD 61iG/�lUIN6 D-2 GOM�GiION OETAILS APPROVALS OPE. / OPS: LE�51N6: RP.: ZOIUN6� GON511a1GT �orEa i rE�co: Pbl E: � I 800-22�-2b0� Call 2 Full VVOrking Days In AdvanCe 6 h iV O O H O h a 0 GEl'�El�iL CUNSTRUCTION NOTES i. �5 nRE � ro eE q��nc a�nE oK.r, u�c5s Na�u an+a�,E. ne rrnec 5u�u iNCwoE a�ar, ru�w.s. EaRe+r. nPn�nawr.� No �aeoR � ro ca+Rere x� �r�u,+na� w9 w�� a ne oK�rs. ]. TIC GON�RAGTOR SiW.L ODT'D� M WtlTR16. NliF10RJZAl10q TO PROGEED �ORE STARTIN6 Y10�iC ON ANY I7B4 NOT GlFAf3Y DEPRED GR IOEN�IFIED BY T1E GQITR/�G� UOGI1AENf5. 3. coMlRAGrart Sw.L Cf�PrtI�Gr uS�A A1Wea6RQllo SERV�Ge a�l¢i) Ar fEOO1377 ]EOio. FoR�Ui}Llrr l.aGAnpiS. 4� HdlRS BEPO1� PRaEeDe+6 wTN Ner EXG1VA7101� 517! MG18: 0I. GA9T1iJGT1011 4. ilE GONTRALTOR `' L l61AlL N1. EQIRE111 KO M111:RL�LS 91 AU.ORDANLE I�TN MANFAGiWER5 ttEGOO�BOAT10l6�R1E55 :fK.FIG�N.LY !IOIGATED OM1��E. GR l46QE LAGI�L GOOES OR Id611LAi1�16 fAKE PR��EDENGE 5. ALL GOIbTN7Gi1010 °J4lL � IN ALf.OffmNCE IVTN T1E GHL ! 18G5 RFQI�ITS �IN6 EARiFI01AKE RC��lSTANGE. FOR Jlf NDT llaafED t0. PP1M6, LI61R F!%AJ�*, CERIN6 hRID. IMIHlIOR PARTIilONS. ND PEGNANLAI E4JIP1�@R. AlL /tl�C M15T GC1�1.Y Y�iH LOGAL EARTIYJLM�E GODfS A10 RFi�lLAT1016. b. �`a01t,R# OF 1RE N7RM OIIER MW Tf105E FQJIO dI lE PLOT GF 51fNEY ORAYrM65. SNN.L N0� ��f ED t0 �D8(tF1' OR ESTABi.Il� �1RB16 OP 7fi6E IiOFtTM AT TI� 51T�. Ti! fAN1RALT'JR `JiALL iELY 50.ftY OM TIE ROT OF JRVEY ORAYM9 At0 ANY SUtVCY0R5 MAIOGIM65 AT 1FE 51iE POR 1HE ° ar T/�ISliElR OF IqE N7RTH, AID yIALL NpiIFY 7F� ARG�7ELT / B16i!@R PRIGR TO PROiGBD�Mb M�7N T}E M10RK IF ANY DE5Lf�PMGY 5 FQ�O �1►EFlI TFE VAfOLU5 ELE�EN75 OF 11M MIO�CDK ORAY�N� ND ilE 1q� NOR1H OR�TITATIp1 A5 OEPILTED ON T!E LNI. SUtVfY. 1fE GONIRALTOR SMAI,L A561lR; 501,E UABI�ftt ROIt ANY PNWIlE TO NOT�' 7!E AILLMIEGT /916R�R T. 'fE 9NLDOi6 OH'ARiD@ff F151AIK 1}E PEFGITS'JIALL f'� Iq11HED Ai LEA5T 7Y10 WOFXU15r DAYS PRIOR t01fE LOM�ENT OF Y�OfaG. OR AS 0�5F SiIq1LAlED 8Y T1E LODE EIFOI�GB�ENf OFFILW. XAVM6 JRSUIGTIQl 6. DO MOT p.XLAVATE OR qSARB �YQtO llE PROPERTY LtlES OR LEK# LIIE�,` IllE55 OIMi�.�E NOTED. 9. ALL EX57016�UT11.ITIES. PKAIiRS. GONDITq15. ND T1EIR DIhE1151016 5!q'N ON 11f PL�W W►VE �1 PLOTTED FROM AVNLAdP REGORDS. T}1E AqGMT6GT / RWI�Jt NO iFE QVER /fi5►E NO RESPOIWB0.1tt IWAT50EV62 AS TO iFE SUPFIG8IGY OR TFE K.GIRALY OF 1FE IN'OI�AAiION' IMN ON llE R.M6. OR T!E MAM6t OF iFEIR f�!l7VAL OR ADJJSTFBR. GONIRALTA6 511N.L BE RESPr7bIBILE FOR DE1ERt�M1#4 EXAGT LOGATION OF N.L F..7C5TAIbJl�I�ITE5 ND F/�C.LIilES PRIOR t0 START OP C.OIEtiWLTKM GQIiRAGTORS SMALL AL50 OBfNN FROMI EAGifJRIl17Y GOMPAN'f OETNLEp nFOw.v►na� �mr ro raxu� �ES �vo r�n�ovs or r�►+ovms at �o.usrn� ewsn�+mur�5. 10. LpRRAGTOR SFW.L VEWFT fd,L F�05TIN6NLITI�.8p1H FqPoIOMAL AID V9tTIGAI,LY. PfdOR TO TFE START OF G(,1FTRIGil01l NIY D15Lt�PANGIE50R DOBTS A5 TO T!E M7ERRETATION OF PLAtKa SMOIRD � IM£DIA78Y REPGRTED t0 T!E ARGH7EGi / EN6P�R FOR I�iOWIId1.W 1N5iFUG7�011 A►C NO ROtT}ER 1101�C `�IALL 1� P�JM11L i1E D25GR@'AMGY MS LIEGFD NO GOfd�GTED BY i1E ARLHITELT / Bi6NEER FN� TO SEdRE SIXJi IN57fLG710N IEFd15 (�OI�TRAGTOR /ll MAVE M1010CED AT !lSAER OIW W51C NO EM+BGE u. ru re�r rro exi5nr�e.�urKirr vwuwrr�s oN �� e n+ �s ro ee w5arm� sr ca5macnp� 5tu�u eE �v.iSreD ro FiwS+ aev�Tas �ort TO FBIAL MSPELTION � MlOfb' 12. AM' ORAN NCdOR FIB.D TII.E BIGOIMrr3�D ! DISAitBED qiCN6 GONIRIGTION SN�LL Ef REAI�� t0 It5 Qn61NM. LONDITION PR1CR TO G01�PIFTION Of Y!."WC SI�. LOGATION AND 1YP! Of ANY UOQ�RQl��UTILITlS OR B�PROVB�BITS 5F1AI.L � IGGI�tATO.T M7fED AIO PL.ALED ON 'A5-dBLi' ORAY'IN� BY FiBENAL GONTRALTOi� Np 156LEp T011E AkLM76GT / p161EER AT LOhPI.ETIQN CF PRp,EGT. 13. N.L 1E1417RVtY ENWVATI0115 POR iFE R6fALLATp1 Cf Pf.UGAT1016,!lf1l.1T�5. ETG, `�iAIL BE PROP@�LY LAID 9K.K OR �tALED RI K.GORODNGE WiX GORISiLT OGGIPATIONK SAFEiI' AIO !lN.TM AOI�N5iRA710N (0511N f�0ll�Fi 1�. VCI1�E MSG. IfEMS PER AT�T SPCG�ILATIOIFa (��TT�'RAT NOTES FOR �XISTIlVG CELL SITES �. Anat To ne � aF aros, n� e�vaNS �scamz�crae swu.� wsir ne ce.� s�� m Fu+�uaig Nn+ ne ex5mi5 caana� �uo ro cwr� nar nE rax un e[ �cca�t.�ev �5 �raw a+ Tre ca6lwctior oit,�r�,. �wr o�,r+�P�u�cr raw 5wv.t. ee BRa�+r ro nE ATT91i1Q11 pF Gp(IRALTOR 2 SUBGOMiRALTOR � 1 V�tIFY ALL E7a5TN6 Di►fIFi1016 AMD LdO1TI0N5 PRIOR TO GOMEi1L:V6 NK Y17faC ALL DI�Q610�6 OF EX15TN6 GON5TR1LT10N � 1MN d! ffE DRA17169 MFsT � V�PED. `�LONIWiLTOR 91W.L NOTPY 71E GONfRALTOR OP ANf 015C�P�NCIES PRIOR TO ORDER�16 MATERIAL Oit PRpiL�pM61rTF1 C.OU'��IIi1LTI01l 3. ilE EA9TII16 GBL 517F 15 RI PU.L LOM�QiGK aPBtAi100. ANY GQ157NIGTIQI YI01lK BY SUBGONIRIGTOR �'JIAIL pOT 0l5NPT T1E EXI9iD�S NOWML GPCPATIQI ANI YGfd: Od P�05TN6 EOAPM@if Ml5i � GOC7RDIMA7� 1'fiH C.OMIRAGTQt AL50.170fdC 5NOLLD � SfJEC1AFD FOR AN APFROPRlA1E NAN791Al1.E MROG14�51MLLY M lA4 iRAFFIL PEWOD5 �F1ER MDN61R. 1. SnGC M GBl 97! MS AGiNE. ALL WEtt PF�GNI►Ip6 W518� TN�1►fEN It7faC1N6 AROIRO M6M I.EVELS O.° BKiROMM1EtIG RAqAif0ll EQAP�6if �JGULD � 5Fi1TG1DM PRIOR TO PB�OId�Mi ANY Il71aC TMAT GOULD E7�0'3E 1!E MqtbCER5 TO DN�69t PE1�i0NAl NP E7�O�JRE MOMTORS ARE AOVIFrEp TO � Mt7101 TO N$tT OF AN! DAN6ER015 EW��+E LEVRS, s. xecaMrn�c� �wu oe�eraae �cnu� �artNa af co�our, ru�t �w n wie�s, sRauar� c�e�s �5 sEaw a+ ne rorert t�►en� ao is.to � ortw�. 5uacai+rwicrat SxN.� urn.i� e�a5te�s rn�r5 �uoroit 5wu.i. �ou � nv�r5 ,�i �ecE�ar. yscaNrn�ctat 5iwt co►F� nE ,�nu� RaurMS rvrn nE ca�rnkraR b. 5tBLONIRILTOR �IA� I�,Y IVp �'RCP6�Y D15PG�# OP AlL SGRAP MA7ERL�LS 9lGH AS GOA70AL GA9.F5 ND O�ER ITElR�7 IQEMDJED PROM 71E �asm+b F�uurr. �ew�s r�.+ovEU 5iwi ee �v ro ne a�s oes�ren �a,+non AP�LICABLE CODES, REGULATIONS AND STANDARDS: �seormr�erae5 worac Swt ea�tr wTM �u �� w�ra�, sr�� vo i.ar„u eao�s �s �m er nf i.aK nrmown ruwe� .ua��oicno� U�u Foa nf tar.�nat ifE EDITIO110F 7!E NU ADOPIED CGOE5 A'O STAIOMDS IN EFFELT ON TIE DATE OF LONIRAGT IN�RD `J111L! �OVB�I TFE DESesa ''_"LBGOMRtAGTOR51Y0faC SMALL GOM°LY 171H TFE LA7E5t �1710N OF ifE FGLLA'�1Fi 5TAI�ARDfa ' M�lGAM LOFIGI�TE R�5f1771R U1G1131E. 9,ADR16 GODE �I�ITS POR 57AIG71RP1 GONGi�TE ' At�ERIGAN IKafIN1E OF 57� LON5fF0lLTION USW. MANML OF 51EB. G016Ti0lGtl0�l /bD.101TN EDIi10N TB.Ef.Qf�MKA110M5 110USfRY �SGOiG1ATI0N (TW�-F, 57WGT1NAl 5TA1GAR0 FOR 57R1GARAL ANTBNA 701'ER MC NtfBNA SIFPORT916 51AiG7118:5 - 96nArtE PoR FLbGTR1LAL No abG7RONG5 B�6�EER5 t�J 8I. 6uIDE PaR t�1�RIN6 EARM itE515mItt. 6ROI�o mFEDAMGE. No FARn+ SIAPALE Fb19RL�15 Of A 6il01/D 5YST8d � II00 (l� REGOM@�ED PRAGi1LE POR Pq'6iM6 AIC 6ROII�IN6 OF �KKTRK.K EWPhENT. -I�E GAI.�I. i�GOMEtO� PRAGTK.ES ON �I/t6E VOLih6E5 IN LGM VOLTA6E AG h7Ryt GfE6U75 tFGR LQGATION GAiG50RY 'G3� NO tikSFl SYSiEM P.�+r�7 t�A e07 LOM�6K,IAL euCDfl�i 6RQwo6 MO BO�oni6 f�11RB�1lr5 FOR T9.6GOM�IMGAnoHS fH.GORD�A 6R�3 tE1NOFlc 87R@1T-9JILD�16 5Y5fEM A'EBBJ+ RN's'LAL PROfFGTION IELGOtm1A 6R-347 L81lRAL ORFKL' PGI'ER MelR16 lELG01b71A 6R-1775 6BERAL Y6TIILLATION �NTS 1B.GOR91A �5R-b09 LOA7CAL l.A�� GONlGTIOkS AN1' ND ALL pil�t I.QGAL 1 STAfC LMEi Atp 1�6y,ATlp6 FA! 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T LL �� <O�a � � w (; W� � Ux�a�c ��'� m0> � � QW F = ..�= C p��oQc � 1� z � � � �� _ � o « � o '= � � I —� I I � � � � � � �El PARKING LG �— , � '-� � � � (EJ BL W _''__�� _ � `�_ _�`�� I � � � ` `\ � ��o � � � �II�N/�� '�� r I N6 (E) BUILDING � � , �, / � , , � � � (�i RFSI�EN71A� � \ � � ,� �-- y , _� _ � I ' __ , , � , � ,� , � , , _, � �_ , _ __ ; ��_ � ---- _ ' � \ , , � , � � � ��— _ — � � ' � ' � � �� I � � � � (Fa RESIDENTIAL — _ _ _ _ � � ' I � � _ � _ � � � � � (E1 � — — — — I � I f' I 1 i —� � _—' � _ �E, — — �� I I 9LDG � I 0 ' �, � � I B � — — !E ( D I ' (F� POYVER EQUIPMENT a � q I I A-� � ` I ' _ — \ _ � � I � � \ _ I �,` ( � � '�� `, I �� -- \ ---=�� , _� `�� '-� ; ,/ � , � , � �, . \ , I � � � �� w , _ _ � � � � � ► � , .� � � . . � \ . , � . � � � , , \ , \ , \ �, . . ° z . . � � r � ,� ,� 1 � OVERALL SITE PLAN �• , gp��• rename me to this viaw '�_ nama � . � n � v u �j m 'r rn ai � > c � � 0 0 ; U °� c (/! O � � r_ 0 o � r� v v _ �a c� * d�y :� L `.,� ,1 �+ i d o � m �' ` ` b �i < V I V p V S �d' 2- � O o '`�� H ��b �S1 � m y � T U Q I 0 i � � 0 � (E! PORT ANT�NNA GAB(-E ENTRY PANEL (EJ GROl1ND BAR !EI rELGO 80ARD (E) 7ELG0 80X (E) FIBER BOX (E7 UENA BOX fE) GGU FtAGK fE) GABLE TRAY � 1'-b" AFF ��E� �r } ��I '�,. , \I I o � �I �E) � o � I �� I I II ll I��o � I — !�) :xN�4A`c�R P�W � I — (E,� �� JaPRE7SiGN HNC rRAN�-FER Sri'f,N — (F.) POY�R M[T�R -- (�) P,4NCL eOARD I — !E) FIRE �X71�ISHER (E) INT[RfAG[ PAN[L � (E) BUILDING �— � �� I I � I �8 � , � A-2 ' � ` I 1 i � � � ` — — —� — � \ � � � !E) EC�l11PMENT SHELTER (E) DG POIMER FRAME ' K ------- ;E) BA7TEPY RAC,K \ / '�• `��''� �� "",•"�� \ � — — � \ l (FJ `ENGE Q �E.� MEGHAN�GAI. VENT \ A-3 � 3(E) b" GGNDUIT \ -- ---- iE) DG ?OWER GONVERTE \ \ \ � --- — (EI BATT�RY RAGY. AND � M) GOAX GABLE RUN IN � DISi3ONNEGT � (E) GONWITS � � � (E) GApLE POR', GABLE � � (E) PGtE TOI^�R LADDER AND GOVER \ \ � � O EQUIPMENT SHELTER LAYOUT �\ � 10 I/2' = I'-O" renan�u me to thia v�en 'dr��' npme � - � ` — — � (E) CANDUIT BOX � � \ � � BELOW WITH 4 (E) � \\ SPL.IT GQ1GT. �� O (w GOAX GABlES —_ � G �% Y `` � 0 13 IN (FJ CANOUITS ; 'k J � SWAP (E) ANTENNA \� � � � A-2 \ � Y'UTH (N) AN�NNA \ I\ / � FOR POS. I AND / � ` � � SWAP (E) ANTENNA � ! ^� P �� WITH (!�) ANTENNA � � �� \ ` FOR PCS. I AND \ ^ �l � P05. � �� v \ � SWAP (E) ANTENNA WITH M) AN-�NNA ` � �GT�� I FOR P05. I .4N0 \ \ AZlM1J � I P�. � ~ �\ ` ` � r � � \ � . � �� / \ � � (E) PGtE TOYVER � \\ 9, �� \ � (EJ GONGRETE BASE � / 'S' �'� � /� � �] ANTENNA PLAN \y /` ENLARGED 51TE PLAN 1 ` 7 / ��2� , ��-0• ranana me to this view . dra . �art:e �\ 8 3!'..�' = I'-O' rename me to this view "� nprna I I II I I II I i ii i I I I I ��\ \\ I �� urw�N�•. �SOT e.S' .INS�t10Rt. � ... . � ��d�10R� �� a d1�G�11 T11Y1�1w riw�ms �m� � � "� q � � ° � m � � � � o � � c � � � � o w �- � o 0 Q OU w ° ' c � o a :1 c 0 oN � o Q d v cL r`�� 0 < 3 � ^ � U � C u � �` .� * a` �, SITE ELEVATION � �e o .� roname rne to tnie viaw "�iq_ �ome ^IATIC;NA� STANDARDS AI mww� c. aa z \urw� � oa x RF CABLkS RF cABLES cz n�nu ce ,�z nrta ,�e �S REO'D AS REO'D �� B1 BETA, B. OR Y RF C1�BlF5 B2 'HRU 86 tis �n•o fbh: SE(:�OR ORIENTMON/KI4UIN YIILL VANY fROY REG`OM TO HEGION IND IS 'aITE SPECIFlC. REFTJE �O RF O�TA 91EET FUF EACM '7ECIFIC SfIE TO UEfERWNE TIIE SCCTOR JRIQITAPON. �� CMx (TYP) �1RCE MRESfOR— (7VP) JU4PQt CABLE TP)- eic�n on oun�crn nR RF COUPLkRS �'1 �:��i. SACRAMFN ��^2 MCAl, aENO (RFNONVI R• � RESNO (�I�p� MpRKEiS (Nnno._ r+��SLNQAHDl �NNA S=GTOR AuL1 CAyLE D FINRION (NUTE 3) N T�1 t. nLL MATERIn:: SFW1 8E PRO�'IOED �' ATdT WIREIF.SS SERVICES TO THC SUBCON7RACTOR F71'i INSTALL/�7�pN. 2. 1FR $U%OflIRACTOR SFULL NOT FXC�(i TiE �'JiELE lEN(.TiS SHON'N ON 7Nf OFtAWINC Wi7Hp�T ItF EJ/CN�� qpPROVA�. 3. :AdLE :LN�;7H5 L:SiED ME aPFROX1�417E qNp qr.E Y0T IMQIOCD TO 9E USEO F012 FPyRMAl10N. SUBCpN7FiA�TOR SIUII A5�-BWLT GBI.E lEN(TAS Nl� PRO��UE qN1ENNA SERLLL NUMBERS ON REJ-Urym pppN1N,C^,, 1. ANfCNwtS SFiU1 BE PROCURFD Pf1C INSTALIED M'ffFi DOWHI1lT BItACKE;S qryp HEAW OUTY ClANPS SIRP�ED BY A1lIENNA µy+UFqCNRE7i. 5. 1ME 901T04 1UMF�ER Si1ALL BE SUPP�Ep qNp !f7�7NJEp gy TIIE giS EOUIPMEM M,WUFA,^,NRFR. 6. �;OLCR COOE 4l1 AWN CJ�BLES AT 1Wp �pG7�pN5; NEAR Afl�NW1 NEAit EOUIPNFjIT 7. ANGRE'N c:OA% GROUNO KITS. NJOREW �pN( WEATiER PROpFlNG. µpREMr S1UP-IN IIANCER CI,qMP$. AND M:OREW NOISTNG GRIPS SI�AIL 8E PROVIOED BY THE COMRACfpR TO ?}{E Sl19CON7RACTfiR FOR MSTALLATION. 0. USE SO OHM LOAD TERANNATORS (/65716-50-0-02) ON ALL UNUSED ANTENNp pORiS. (IF MPIJGBLE) 9. MW�/TL4� I� qPPlJCABLE, iN pC"�ARD.41�E yl(1}1 RF DATA SHEEf. 10. D'JPIc'7(ER iHIECPAIEtI INTO 8TS GBINE?. �: ALL RF GF7LE iMALL PE MAfMm AS �'ER GBIE 1. USING COIOR BANDS ON iHE CABLES. MNiN ALL RF GBIES 9Y SECiOR 4NiKINC LOiAT10N5 TAl3LE BtI.OW: µ� CABIE NUNBER AS SHOwN ON 'CABL£ IMRKINC COLOR CONVENiION TABLE� (IXMIPIE SECTOR ALPMA. GBLE Al WOULD BE THREE RED &WOS). CABLE MARKING LOCATIONS k0. TME LOCAI�ONS Z• THE STANMRO CABLE MARKING TI�PE IS B�SED ON TNE "4 NEAN' ENO OF 7HE MNN COA% RUN WHERE THE COLORm TMES -(tED. OLUE, GREEN pNp YE(10W. 1. X �XIAL GBLE Afi� JUMPER LO 'ME µ�� 3. COI,OR COOING SCHEME SHNl FOILOw IXISiiNG NARKEf REOUIREA1EfiTS. TMf COLOR SCHEAIE SHOWN IN �ABLE 1 IS tN ACCORDMICE WITH AM5 G1B1_E QiTRY PORf ON iHE IMFRIOR OF �� µ0AR�5 WhICH WILL BE FOLLOWED ON SITES IN SACRAAIENTO, X �NO kd0 FRESNO MMKEfS. THE COLON SCHEME SHOWN IN TABLE 2 IS IN fHE SME1iER ACCORpWCE WITH qWS yU� FRµC15C0 wWKET W111CM VnIL BE FOLLOWED ON S(iE5 W SW FRµG5C0. THE SUBCONiitAC70R SMALL yERIFY THE 3. % END OF JUMPEr7 AT 8T5 C�pINEf COIAR COOING SCHEME FROM THE COMRACTOR BffORE PROCECDING WfM 7HE COLOR SCHEME AND REDLINE 7HE ORAwING ACCJRUINGLY. u.nAew z2o-zss n� � is �N s iN wv.c �rrr) MIIBER4�.AMIpi i20-265 IN-LB � 6-10 iN-18 7.1-9.7 IN-l8 ��E �)1 CaM6COPE 22p IN-iB IS IN-IB--�, g�5 EIXNPMFNf RF G92 N4YIMU4 3END RMIUS .Y1D WnUF,�illpFpS qECOYYENDEp CONNEC70R tONqUE iIElES DE'PAIL CABLE MARHING LOCATIaNS DIAGRAM rne�� SAN FRANCISCO BAY R'-a (SNF[`rq�eRKFT S 0 A MARKF'T STANDA�p1 A�TENN;� SECTOR g� CA61 E fFFiNRiON (NOTE 3) T'YPICAL C�OAX CABL� MARKING, BENDING & CONNECTION DETAILS STRR Q11ER JAG(ET AwFY, Z (USE �7ROVED TOp(,5) �� W�R JACNE� OF COAX CABLE SHIEID STEP 1 e S, 6 c' g � S �_ �—� ra-�.,.-._ ��_ �rrxcH caa�bo Krt a�1�, �6 Awfi COI�pI1CTOR (PER KI� $PEpFICAl101�5) STEP 2 �-------- - _`.._ �v - - - _ �__ _ _ �� 'IIEAMERPROff, /6 A�G CONOUCTGR SEE OE1All ON SFffET RF-Z STEP 3 ��K ��,� - T�� ,��r� COA% CABLf �� JUIIPER STEP 1 � � � $TEP 2 - - - - 7/�' BtAQt El£C7RRAL iME, pp119LE U1Ee't ( SEF RF ",�I�EP,N. y01E E ) �-��-rY�TT1 � STEP 3 a __� i� � � � 1 1 1� � 1\ ��,',�; �1r�_ 1-Lt �_ l_'�1 �-�'—� `— 8uM RI;BBER ( SCE NF GENERAI NO7C d) STEP 4 _ _ :� } � , � _ 3/+' B�Aac EiECmr,;AL IAPE. I UYFR � gF � �NERA� NOIE 8, ) HOTES: (U�N.ESS OiHER�tSE SPEClF�EO). 1. ALL OU7DOLY2 CONNECTONS SHALI BE '�EdMER PNpCfEp, 15� RF GENERAI NO�E N0. B). CPS/bCC4 ANIENNA � � I GPS/BCLN NAST GROUND KIT (CAO NEID) 4 FORT I 6 PpRT I AN7FNNA ANTENNA I L-1/2" COA%IAl ' T%1/RX1 19( T07 OF ,Uw C�B�E n. N N Q2WNpNC N N CRIXiNDINC 1 SURGE MRESTOR LMR-210 �SIR-2�0 nic mc COIL COAX CABI£ FOi7 FUTURE CONNECTI(k� TO Nl5 (7tP) �� 7� � � � � L � �• ��,� im ar�4P 0 TOP { DW TYPE FEMM£ NF.CTOR (PN7ENNA) T.X2 850 G9A MA (Y.`OUtBI BM S£E DETA1l Q20UND 3N7 SEE DETAII ,AINPFR CABtE 4ME F7AME r— �11 /1NTENNA DEiAILS ►ccru�rx a�no�s PARTNO. BSDBIBUB F�I[#ff IS' �78Imm) OMMETBt �I JS --- YV60f(r 4 Pqllp$ OONEC70RTYPE �YPE li� wro w�aow� asHNn �cne�r.K e�cR�wr�e F�]if,Y 825-89Q 1860 - 1900 (NfZ Ci11M ldp�Y VERIICAL &W. 15' Vl�YMR < 21 PON6i RA'TfiiD 1501M CIY � � � , z y � s TYPICAL GROIlND KIT INSTALLATION / CABLE PREP DETAIL TYPICAL COAXIAL CABLE WEATHER PROOFING Oi (;ALOR CODED TAPE LABEL CHART SECTORS COLaRS POKT 1 PORT 2 PORT 3 PORf 4 '�� T � � fACFI AODITiONAL PORi A j RED � . ' B GREEM - . � • C BLUE - . ' D yyHl if - � ' NO iES: 1. 00 NOT iNSiALL CABLE C�70UND KIT Ai A BEND. 2, 4��AY5 DIRiCT GRUUND `MRE DOWN TO GROI,'NO BAR. O 3 AL�/AYS �IOUNT TMA / LNA VERP,CAIIY A5 SHOIVN. O USE 3 FOOi X 01/2' FACTORY MADE JUNPERS ONLY. 5 CCdJNECT TMA / LNA TO F!RST AND LAST PCRTS OF EACH SECTOR, U�LESS 0?HERW�SE DIRECiED BY RF. 6, FOR IMTERCONNECT DIAGRA�) SEE DETAtI 4 THIS SHEET. �� ; 3 � ;i JUI�PERS, iYP GROUND KIT, TYP �6 AWG STRhNCE� CO°PER - GND 1hF.E 'M M GREEN, fi00V, iH�N INSULATION, (PART OF TYP GRIX1�1D Klf) � �0 SURGE ARRf_Si0R5 � CCAX CABLES, iYP - I TYPiCAL IWTENNNA SECTOR, (DUAL PORT, 2-ANTENNA SECTOR SHOVIN) _�) �__i a 3 �� LNA /'I�A, i`rP �NA I fIr1A, TYP �6 AWG STRANDED COPPER GNC 1MRE '�ITH GREEN. 600Y TMWN iNSULAT104, T'rP � COIOR CODE TAPE -- 24" X 6" X t/A' SOLID COPPER �40UND BAR, BaNU TO MCB /2 AWG STRANDED :.OPPER CND VARE �ATH GREEN, 60CV, TH'J�N INSULAiICN TO �IGB GROUND KIT, TYP —� colOR CoDE rAPE a-- �6 Ay1�G STRANDED COPPER - �� 'MRE �ITH GREEN, 600V, TH1�?� �N$ULAiION, (PARi OF iYP GROUND KIi) TO SUR(� qRRESTORS {, -� COAX CABLES. T1P �� 911 ANT�NNA DETAEL TYPICAL ANTENNA SECTOR, (OUAD PDRT, 1-ANIENNA SECTOR SHOYM) � 2 7� 4 3' X 01/2" FACTORY I�ADE JUI�PERS, TYP .� �6 AyyG STRAN�ED COPPER CNO �IRE IMTH GREEN. 600V, �WN iNsu�ariaN, � 24" X 6' X 1/4' SOLID COPPER � CROUND BAR, BONU TO �1GB �2 AwG STRANDED COPP'cR GND WIRE I�TH GREEN� 600V, TH'HN INSULATION TO MCB LNp / T�A, �YP GROUNO KIT, TYP COLOR COOE TAPE �� ({6 AWG STRANDED COPPER - GND 1MRE �ITH GREEN, 500V, ?HWN INSULATION, (PART Of TYP Cr�OUND KIT) i0 SURGE ARREjfOR$ �� COAX CAB! ES, TYP -� TYPIC�►t. ANTENNA SECTOR, (L�UA� PORT, i-ANiENNA SECTOR SHOWN) 3' X 01/2" FACTORY �IADE JU�I?ERS, TYP �6 A�G STRANDED COPPER CND �IRE V11TF! GREEN, 6UOV, TMYM �NSULATION, TYP � 24' � 5" X 1/4" SOLIO COPPER GROI,ND BAR, 50ryD TU MGB �2 A�G STRnNDED CGPPER CNO WIRE '�TH GREEN. 600V, hiwN I'rySULATIGN TO �GB TYPICAL ANTENN� INT�RCONNECTION DETAILS CA]3INET MARHING LOCATIONS i �� rjp NpT IILSTrV.L GABLE Fii2CUP'D KIT AT A FiEND '"" ALYVAY� DIi2EGT GNDUND WIKE DONM TO /1NTENNA �RLX1! � 2. N�AT}Ck °RCCFINC� SHPLL I3E TNY�-PW�LT TAPE KIT. GC`LD ! SF+Rit�. `iN/��1- NOT BE LKtD. � 70 ANfEFBdAS I I �-`��\_r�� / � — 'v�A (`i�PROOFI�6 � RX2 � ��TXI/kXl KIT (TYP) I � � j ;OAX .{'iFIFER / I /� 6ROUtdD KiT {TYP) ('rP) - � / i l� / j i „ il j , ; ;OIJNEGTOR � i t^SH (HERF'ROciFI'Nti �; i FIT 'TYP.t � ; ;�E v)TF 7 � I - / � ?sITE"R1A G,CBL� - i TO BTS Et�UIFMEhiT � (TYP.i COrd�lEGTION OF C�ROUND WIRE TO E�ROIRJD OAR, TOiM�UMONOPOI a6 AYV6 AMTENHA 6ROUND BAR, WI7HOIIT �NSULATORS. BONDED C•�REGTLY TO i OP OF �'�ONOPULE OR 70WER. ro ,vrretaw, STANDW2p GRCUND KIl" (TYPJ � ANTENNA 6P,qpdG DAR W/O INSt;;J� iORS, t30NL'ED DIR,ELTLY �O T}IF 70P OF FICNOPOLE �tONOPOLE 5EE NOiE I. r}_ i SE{ pEIAIL O�JS (SIMILAW nKrw�,a �rzax�u� [�Ar? � wio ir+su�Arazs, �6 AW6 (PRpVIDED / M�OUNiFL' HCXtIZONTAi WIlH ��RGGRdp KIT TYPJ J BEL-OW E:�I? PORT SEE R NC�TE �. � DFI.>IL OOS c;OAX GABLE r —EXIT PORT (TYP. FOR ALU �� L _ t^t�.� � � �—w"1 AVi6 BGW TO SHF1_?ER � � I /� '�LID fIN1�D VIA TRAY UR � !� PLAGC� IGEBRIDGE - /�- MONOPULc PIER RING 6Rq1ND —�—f �2 AWG 3GW SOL.IU TINWF_D � (TYP!GAL OF Z) i � NOTE: I. NUMBEt2 OF ;�RGUtm BARS MAY VARY DEPENDINr� ON T}iL 'YPF OF MONCPOLE, ANTFNNA LGYAiION .4ND :ONNEGTI04 ORIENTArION. PROVIGE AS REC,�11RcD. AI�TF*AIA � f3PR WlO ��` '�-AT� TO ANTENNA BGNDaJ D�REGTL.Y TO KIT (TYP) T}!E TOP OF TU�`IEi? �� 5[� �oTL I a pETAIi OCS - db AWG (PROVIDED vurN v�ir� Kir rrn) t � GOAX GABLE p,Pf;�NPW 6ROLTlD BAR Il 7�(TYP FOR ALU wio in�.,�,ro�, eormEn �is�cn; ro n� eorror' pp 10YfR � NO?E I. � DETA�L OGS - ;aCiiF�EFM!G 1'VEL;i - p2 � BGVi SpL.ID -1NNtT> - cR(�IJ RINEi �� 1. NIMBER OF 6ROUNDIN6 BARS MAY VARY DEPENDIN6 ON ?4E TYPE OF TOWER, ANTENNA LOGATIO�i Atm (,CNt�GT10N ORIENTATION. PROVICE AS iZFC�IJIRED. KIT (1YP) TO BTS EQUIPMENT VIA TRAY OR IGEBRID6E 6ROUND V�llRE 1� CgR��TNN.I� �AIZ �T ��N�NNAS 2 MON�POLE GROUND DE�AIL i 3 TOWER GROUND DETAIL , -_ _ 5R�1Np BAR ON WALL BRIDSE, OR CN A rOW,�R �— � � ) •TWO `i0!_E LUC-, OR �-6PlJUND GONDUGTOR EXOTNERNIG WELD TO 5E 5F{qLL gE ELIMINATED USED WITH �2 r1WG P,GW TO �(�p�p SAR IS '3191D!N6 �V'!GE 6RGUNC OR Q.�GTR�GALLY 90NDED TO vRGUND RiNG h�TAL 'fOV�R/MONOPOLE STTd;G1URE � GRC,'UND BARS AT THE 001TOM c� TOMERS/MONOPOLES SFS4l1 O�Y USE FjCOTHERMiG V�LDS. 5 C��2�UND �Al� CO�TNEC'I'IDN NOTE: WH=N GABLE TRAY GOVERS ARE SPEGIFIED, T}iEY SFIALL BE INSTr\LLED IN AGCCRDANGE WITH MANUFAGIURERS INSTALL.ATION PROGECURES AP-D INSTRUGTIONS FUFc 'HIGH WIND GONGIl10N5'. THIS INCLUDES GO�INEGTUR TYPE AND SPAGINGS. wivrH As SHOWN ON DW6. , HOLC DOWN GLAi�iP I MOUNT TRAY TO UNISTRUT I WITH I/2" - 13 X I I/2" 1_CNG I !�ALVANtZED SOl_T5, SPRINC j NUTS PIOIO ff YVASHEfZS -- C.A��_E T�i'A'r G" R;JNGS, 4" LCADIN6 DEPTEV. SUPPORT GA8LF5 WITH �!E WRAPS EVER7 4 FT. - UNiSTRllT P1000 E'✓Ef?Y 6' ON ,r.E1dTER -- MOUNT UNISTRiJT rp [3Lp��, W/ 3/8"? EXPAh1510N ANr�HCR FOR GOi1GRE?� iNALL. (RA��fSETiREDHEAD Ti2U5CJLT OR EQiIAL) (MIN EME DEP''H - � "��8��) _ VERTIGAL TRAY SHALL BE PAINTED TO MATGH ESUILDING SUR_ROUNDIN6 SURF.AGE ONLY AT SPEGIFIG REQUEST OF LANDLORD 8 i��C�L 1'�1Q►tTI�1TE� CABL,E TRAY DETAIL 4 � � � � 7A6" 2„ l� ��o o � �t ///�� 0 1 � 0 0 0 p-( Q J O � 0 0 �- � T � � � 0 0 0 3 �°� 1 SFB DSfAII. 005 o ° 1 I.E I- GGPPER GROUND BAR, 'X I/4"X 20', NEWTON INSTRllMENT GO. GAT. NO. 8-6142 OR EQUAL. fiOLF GENTERS TO MATGH MEMA DOUBLE LUG GONFI6URATION. (AGTUAL 6ROUND BAR ,IZE WILL VARY BP�SED ON NR-18CR OF 6ROIRJD GONNEGTION��) �- INSULATORS, NEWTON INSTRUMENT GAT. NO 3061-4 OF? EQUA.� J� i/U LINNVVf�LM1J� �t��vi� iiVi�v/i ili�� vv. GAT. NO. 3015-8 OR EQUAL 4 WALL MOIM(IN6 BRAGKET, NEWTON INSTRUMENT �. J. GAT N0. A-6056 OR EGUAL 5- 5/8-II X I' HHGS BOL�S, NEWTON INSTRUMENT GO. GAT NO. 3012-t OR EQUAL ir IN`JILATORS SHALL BE ELIMINATE�J WHEN BONDIN6 DIREGR.Y �O TOMEWMONOPOLE STRUGTURE. GONN[GTION T(7 TCWER/T10NOP(JI_E SlRUGTURE SNALL BE P92 MANUFAG(iN2ER5 REGOMMEND�itONS. 6 I GROUND BAR DETAIL � �- ANTENNA �METAL 5"iA.AP MOfH�tTING R�RNISHED Pi�E n-�A win� n-+a IERICSSON n a,urer:nv. 9 MOUNTING PIFE 6ROUND SGR[W -� �izraa� wtrze ANT Tx GROUND WIRE TO ANTENNA �_ TO ANTENNA GKUUND BAR I GRAMD BAR �L _AN'tPER TO MAIN �AAX ,LMpE2 ro -�� .�x ro l�NTENNA �IPH2 TO MAIN GOAX TETUJA � � r�rES: I. TMA IS A YVEATNERPROOFED ENGLOSURE RATED TO IP65. 2. TT'1A SHALL NOT BE �'AINTED. A LABEL STATING "DO NOT PAINT" 15 PROVIDED WITH TMA AND 5Hh'LL BE NIOUNTED ON UNIT WHERE IT IS U_FAFLLY VISiBLE. 3. IF POSSIBLE, TMA SFIAI-L BE MOUNTED BEHIND ANTENNA TG MINIMIZE WIND LORDING ON STRJG111RE• 4. PFZOVIDE SUFFIUENT LENGTH OF JUMPEK TO ALLUW FOR PKOFER P.PF'LIGlarION OF WEATHER PROOFING AT ANTENNA AND Tl"1A GONNEGTIONS. 5. BOND 7�'9A 6ROUND STUG TO GROUND BAR WITH NO. 6 AWG GROUND WIRC- AND 2-HOLE 6ROUND LUr, 6. BAGKPLATE AND POLE GLAMPS FUR MOUNTING TD 2 3/£�" CIA. ANTE4NA MOUNTING PIS� PROVIDED WITH T1�1A. �. TMA 5HA! 1_ BE MOUNTED �/ERTIGALLY. 8. GONNEGTORS SHALL BE WEATIiERPROOFED IN AGGORDANGE WITH REQUIREMENTS OF STANDARD DETAIL NO. 520, NOTE �2. q. JUMPER GABLES SHALL 8E SUPPORTED V'{ITkIN I TO 2 FFET OF GONNEGTORS. 9 FRICSSON (T.M.A.)1l�IOTJ[�I'�'Il�G DETAIL ANTEkNA LABLE 12" TO 24" V�AIHERPRGOFIN6 KIT — 2 I/2'? MAX. (SEE NOTE 3) GABLE 6RC1kJD KIT �6 ANY� STRA�ED CAPPER uR(XNSJ WIRE (C�ROUMDED TC 6RL�UND BAW (Sc NO1F. I d 2) COI�TNEC1'ION OF CABLE GROUND KTT TO Lil`1 1 i:l'll`It1 l�Ai) NOf 5: I. DO NOT INSTALL GABLE GROUND KIT AT A Bt?dD AND ALWAYS DIREGT CROIMD WIRE DOWN TO GRGIND BAR 2. 6RtX1NDIN6 KIT 5HA1,L BE ANDREW `�1REGRGUND TfF'E KIT WITH TV4D�10LE LUG. 3. �TMER PRO�OFIN6 SFfALL BF TWO-PART TAPE KIT, GOLG 41RINK SHA11 NOT 8E USED. 7 I CABLE �GROUNDING DETAIL NOTF: WF+EN G.46LE ?RAY GOVERS •qRE SPEUFIED, THEY �F;ALL BC INSTALLED IN AGGORDANGE W�?H MANUFAGNR�RS INSTALLATION PROGEDURES AND INSIRUc,TIOtJS FOR 'HI'�!-1 WIND GONDITIONS'. rH15 IMGLUDES GONNEGTOR TYPE Sf'AGIN(�S_ GABLE TRAY q" �.UNGS, 4' LOADING DEPTH. SUPPORT Gr�LES WITH TIE-WRAPS E�/ERY b FT. HOLD DO�VN GLANP FASTENED TO 4"X4" WITH 3/8" X 2 I/2' LO�G LAG ��' GQEV'L5. / o _/�, / 5 � � � - e WIDTH A5 51-10WN ON DI'VC�. — 4" X 4" X Ib" ( FOR 12' TRAY ) 4" X 4" X 12" ( rOR 6" TRAY ) PRESSURE TREATED LUMF3ER. INST,4LL EVERY b'-O' WHEN MOUNT ON ROOt=. SET LUMBER IN ROOFING TAR TO pp,F�/EVT MOVEMENT. ALTERNATE: PVG SLEEPER MIGROFLEGT BI585 OR EQUAL �ION: � MIGRO�L-"tGT ROOF MCUNTED BRIDGE KITS GONSISTING CF SLEEPER Alr'D GO�/ER. �`'. I) ANTEt�NA INGLUDES A F6H.�'.Lc DIN GONlEGTOR 2J .1R'�PER GABLE INGLllDLS (2)-MALE Mfv� VIN DIN GO�R�EGTORS GOM(FGTGR � 3) SURGE ARRE570F2 INGLUDFS f"L1-r�� FEMALE �I'N DIN GONrEGTORS �,��Try2 I ANTENNA INSIDE OUr51DE GABINET GABINET Y2' JJMr'��R GA9! E -- I I MAL DIN � I ANDREW GOMIJf=:TCR ( I AP!W -BI�DF_y�g � I � �T� � ' I � �� E �� - MAt� DIN GONt�GTGR I / } �� MAIN GOAX ��f3i FEMALE DIN GONNEGTOR �q� pIN - f�-tALE DIN GONNEGTOR GONt�GTOR MALE DIN GONNEGTOR X�' .UN�JZ TO BE PROVIDED AND INSTALLED B'f GONTrZP�(,TOR 4 COl�INECTION D�G1�.A1� ��: I. CANTRAGTOR TO X-RAY PRIpR TO DRILLIN6 OR GORING TO LOGATE (� RE-BAR AND GONGUITS. DO NOT GUT RE-BAR OR GONDUITS. 2. GONTRAGTOR TD INSURE NIATER- TI6HTNE AT ALL WALL AND FLOOR PENETR4TION5. 'A' = DIA. OF GRONW GRCJVN DIAMETER TO BE THE DIAMFTER OF THE YVALL C)PENIN6 PLllS I' FtRE-RATED G-YFBDi5il1D WALL A55F?�1BI_Y Fi' MAX. DIA. MTL PIPE. PROVIDE NOM. I' ANkAAR SPAGE AROUI� FIPE OPT101dAL FORMIN(i MAT�2IAL - REGESSED i!2` FROM 1NP SURFAGE FOR F5900 MAiff21hL (MINE2AL ',1 h� IVVL VLii.��WY. � FLAMESAFF tPG FS/F5T9G�0 SERIES I GOMPOUNp APPLI=D I/2" D�i' iNTO ANNJI1IR SF'AGE ADp. MA1HtIAL ACD� TO FORM 5/8' GRUV�I ARGMR�D GCFBJUIT AND UL� Y'� 10p1 LAPF'ING I' BEYOND OPENING �i2AMED NIALL PBJETRATION � n e� I/4' hl!N. C.ONG. WALL OR GhU. �ii� ro �n� si4� wU. �NMILAR SPAGE ARO.IND PIPE ' MAX. DIAM. h1ETAL PIPE LPJ�ESAF� IPG FSPI00O P�fl'r'f APPL�ED irn r� ��r� - in' ni�cr.r� �T EA. WALL `a1RFAG� ttJERPJ_ WOOL (4 PGF) PAGKED INTO J�iNUI.P,P. SPAGE ANC QL I!2' FROM WAL! `�I1R.FRGES � :(iNDUIT t� PLAk (4'm MAX� / FLA.�i�FE IPC. F59G'G MIN. I/2' �. �us�+ win+ r�.00K NL. SYS'fE!�I GA.;IIOS) 3 HR. �r1TFD a a \ a e GONDUIT FLOOR GLAMP, TYP. � o. '� � � (E) GGNGRciE rLOOR G�NGRETE FLOOR PFNETRATION 10 HORIZpNTAL MOUNT�D Ct�.,BLE TRAY DETAII. I 1_1 i COND�TIT �ENE'I'�.A'�'ION �ETAII, (A x WJ 1020 GONGRETE VVAl! PENETRA710N �6 Ai^!G FROM AMfENNA GABLE � ;�a,rv r.ir � i � iNGWDF�7 li2' HAR9WF.RL --- 3/�" (13 mm1 GiA. HOI�� FOR SI�Ar -i7�1 NAW�ERS --� 2 I/� 64 mm ^< ii2' r�4 mm ANbfs L: G OR P!PE LE5 -/Ib" (II rr�rn) DIP. ii:�� FS FOR GJSH�Oh' ANGhORS UWly�fiSAL SIVAP-li� BRACKE�' 20 �. , ,,, �--- ��— s i;�� " I �� /, � � � % `� r�ou�rn� ' J /�� `J � � � J� BRPGiCET HOLE IS � ` !;��/ 9/Ib° (Md1NTIhIG � 1 �� HARDWARE AND S�JAP-INS �, i �: � ORDER87 1 � /' I � SEP.4RA'faY � 1� l� 11 � / / �/ 1 � � 92211 GLUSTER SUPPORT BRr+,�GKE7 FOR (5) SNAP-IN HANGEKS--- - NOT: A MINIMUM OF 410 BRA,GKETS ARE NEED°..D DEPENDING ON r1NTENNA CLUSTER SllP�'ORT 9RACaCET �NTIN6 LOGATION. 19 i �. , ,,- I 9;16" 3 " MIN.� , � � � � i j � U�'? L'-HOLT. 2x2x3/Ib" r 3'-6' TYP. � � LON6� TYF. � I I �i �.� _ � I � � � I j PIPE 2 5� ! j f2 3/8' OD) I � � i i VARIES. i 9f'67 rIOLE� � - r NP. i i I I M I � �'7 ��2" ��'7 ��` . � � /�� ja� ,� H BRACKET IMOUNT Ip � � �,� U5E MGUNT BI'TOq (I'- 3/4' WIDF� FOR AN6LE SIZE 2 I/2'x2 I/2"x6xb- 2 3/6' ODx5'-6" LCNG U5E MOUNT B�926 !I'�' WIDE,� FOR AN6LE SIZE 8Xx8- � 2 3/8 OD.�'-b" LONG i � A6JlISTABLE SLOPE �'fP� �AOUPlT �� xrs. """' cXI5TIN6 SLOP� A4C GR4DE. � � F 1=I � I —__ � I I- �— UMDISTURBED SG:L p� � i ��=_= �=� - — GJMPaGTED BAGKFILL vM/ ry n I i' I _==_ - 5A7I5FAG70RY NAT!VE GR ' �- - i�1PCRTED SOIL 'v Q . , \ ` llTILITY WARNIN6 TAPE � I I I I1=1I -• \ �� G.ric DuGT e�wc REG' � \ GOL?RED b' (MIN) �� - (!2) �/8'? (:OAX GABLES ((61 FOp WILD. (6) FOP. (�P,OWTN) � RGUT=D IN (3) b"? A/G SGH. 4U 2' (MiN) GOkDUITS, 5EE PLAN SHEE' rt01 (HORIZ. d VERTJ �77� GOAXIAL GABL� MININ9JM BEND RADIUS' I. SEPARAT:ON ,4ND DEPTH r�tINIMUM BENC nAD!US IN� DIMENS�ON TO BE VERIi-IED WITH � G�>BI_E 51ZE 4" OR b" GONp111T LOGAI 1�TILITY GOMPANY RECiJ!REMENTS � /�" � O" ��.. 18 �� • PRpVIDE PR�PER BENDING RADIUS I i/4" — � -Z2° FOR GONDUITS AS REp11RED BY I 5/8" � � THE CAAiCIAL GABLE MFR (SEE TABI.E BELONU JO�IT Ti�QdCFI DETAIL 4 � . �,. �, G�BIE TRAY!,OVCRSSIIALL BE ;NST/�LL,� IN.iC,GORDAN',E WTI MlWFA;TLRER$ INSTALUTION PAQGF.qltE� 0.ND INSTFWGTOtL�i POR HI6N M9f1D coroinoNS•. nxs iNCwo[s car�troa m� �uo sr,�c.i�s. nU c.�e�e rnon IB@GHTEL PN GT20002 -!2' V110E RU °-GISY634' QL. OR GTZO001 - 5' WDE) GA9LE tRAY MV 9' faNfi SPK.IM6. /' (E) LIEI.E 1RAY 4' IOApN6 DEP7H. MI G/�BLE 7RAY GOVER WJLO DOME1 GLM1P FASTENED TO 4'X4' /'YTH I/1' X I V�' LON6 LAFa SLRFP6. 5' . __J � W- 8-l�tE iiJBBER �PER (EJ �vtN SuPPCRr conx�AL GABLES Nn� rie vR,�s e�rrr b�r 3 ROOF (1AOUNTED STACKED CABLE TRAY 3/8' = 1'-O' �e e�a.e m�r covE�es 5wu� eE �wr,w.EO iN �eeare�.�r+eE rnn� MNUnc� n�SrK.t�na+ PwC.EOUrrES w+o n+5rwicna+5 rort -i�« wro carr�moNS'. n+rs mcwoes cc+a�ecrat rnE �wo 5r�uwe5. [eecN+� rro cr�oau - �' woe � ae cnoorn - b• revel eFJ �e�TM �W c�ae rw�r coveR GABLE iRAY YV 9' FiN $PAGIN6. g 4' LpApMb pEpfN ��ERTIGA: TRAY ylA(.L BE PAIN7ED IBEGH7EL PM GT70012] TO MATGH MLDN16 SIRRAMDINb WALL MQ11T CIT E�ERY SI,RF�4E ONLY AT SPEUFIG 6'-0' ON G.°NTCR REpJEST OF LNGLORD IU c�ae rnnY (fU LABLE TRAY 5irrorcr c�e�es ran� APPROVED GABLE HANGERS OR t�1 uiPS am in• Manr i+asnwb e�s. w�vwnrs� iw�we� wm� ir- r+oisrn+s swa� n� u5� ro e� rva.� r+arr Krc suPCnar cra�e, ne rsuvs w.r F7E USED TO POBI710N 1NE LABLE M15tne�s3a• oo, wnaN niE c�e�.e rw.r. �W wvn� MaA+r u�asrnur ro 96os. w 3�9•Y r� G�ANSION HI�LIbR POR LONLRE'f� YULL. MATCiI N° (RAMFJET�TtEDrPl�O tTi�EOIi OR CCJINJ IMN Eh6 DFPfN . I 5✓87 „ WER�ICAL STACKED CABLE TRAY � 3/8' = i'-O' _ � 3'-I' GA@INET / J 1 EGIUIPMENT �- `EQIIPMENT GABINET (51,2'W x GABINET � 3�"D x 695" H, I�00 LB5) /� � x 8'D � LL OPENING IN BASE FOR GOAX Y x Sb"H) BY �. GABLE AGGE55 fBEYOND) � � MAWFAGT�A2ER 3' � GAZINET GATGH, TYP.—� � �r �I I 3/8' DIA. "HILTI' (K3-T7J KWIK 80LT EXPANSION � ANGHOR WJ �' EMB. TOTAL OF (4) ' ti � �a I! ° II II °� d a p n a �, c a d �'-0' � o r� O CO � (� ,� O `•'4. � � �� .� -1 I I I I—I I i—; I I= i I—I I I—I I i I I ! i— L b" GONG. S�AB =1 I I-1 I 1=i ; i=1 � 1=1 i 1=1 I I_=1 ! I-� ! �—I'' '• ALL ANGHORS TO MEET IGG-ES _GpMpqGTED BASE ESR-IqI7 SPEUFIGATIONS , EQUIPMENT ATT�4,CHMENT ' � �r�. , ,.�.