Telecommunications Systems Narrative Page 1 The Engineering Enterprise

I. TELECOMMUNICATIONS GENERAL REQUIREMENTS A. The project consists of a renovation to the historic Clinical Sciences building, originally built in 1933. The existing building has a total area of 105,000 square feet. The upgrade work shows level 0 as existing utility spaces, storage, and multipurpose rooms. Level 1 consists of classrooms and conference rooms, levels 2-7 is office spaces and meeting rooms. B. All work shall be performed in compliance with the most restrictive of Municipal, State, and/or Federal Codes which may govern this work and shall conform to the following codes and standards: 1. National Fire Protection Association a. NFPA 70-2010 California Electric Code b. NFPA 101 - Life Safety Code. c. NFPA 258 - Standard Test Method for Measuring Smoke Generated by Solid Materials 2. ANSI Standards a. ANSI C2-1997 National Electrical Safety Code. b. ANSI C80.3 Specification for Zinc-coated Electrical Metallic Tubing. c. ANSI/UL 797 Electrical Metallic Tubing. d. ANSI/ICEA S-83-596-2001 - Fiber Optic Premises Distribution Cable Technical Requirements. 3. Telecommunications Industry Association/Electronics Industry Association (TIA/EIA) a. TIA/EIA 526-7 - Optical Power Loss Measurements of Installed Single-Mode Fiber Cable Plant - OFSTP-7 (February 2002). b. TIA/EIA 526-14-A - Optical Power Loss Measurements of Installed Multimode Fiber Cable Plant - OFSTP-14 (August 1998). c. TIA/EIA 568-C-0 Generic Telecommunications Cabling for Customer Premises. d. TIA/EIA 568-C.1 Commercial Building Telecommunications Cabling Standard e. TIA/EIA 568-C.2 Balanced Twisted Pair Telecommunications Cabling and Components Standard f. TIA/EIA 568-C.3 Optical Fiber Cabling Components Standard g. TIA-569-B - Commercial Building Standard for Telecommunications Pathways and Spaces (October 2004). h. TIA/EIA 598-C Optical Fiber Cable Color Coding i. TIA/EIA 606-A Administration Standard for Commercial Telecommunications Infrastructure Telecommunications Systems Narrative Page 1 The Engineering Enterprise

II. j. ANSI/J-STD--607-A-2002 - Commercial Building Grounding and Bonding Requirements for Telecommunications (October 2002). k. TIA 758-A Customer-Owned Outside Plant Telecommunications Cabling Standard (August 2004). 4. Federal Communications Commission (FCC) Part 15 and Part 68 5. Title 24 - State of California Code of Regulations 2010 6. California Building Code and CBC Standards 7. Occupational Safety and Health Act (OHSA) Standards 8. City and County Electrical Code, as applicable 9. IEEE Standards a. IEEE 802.2 b. IEEE 802.3 c. IEEE 802.11 10. NEMA VE1 Cable Tray Systems 11. Underwriters Laboratories Standards: a. UL 497 Electrical Grounding and Bonding Equipment. b. UL 1479 Fire Tests of Through-Penetration Firestops. c. UL Building Materials Directory; Through-Penetration Firestops Systems, and Fill, Void or Cavity Materials. 12. ASTM Standards: a. ASTM E 814 Methods of Fire Tests of Through-Penetration Fire Stops. 13. Rural Development Utilities Program, RDUP Standards for Acceptance Tests and Measurements of Telephone Plant. 14. Americans with Disabilities Act (ADA). TELECOMMUNICATIONS PATHWAYS A. Pathway Systems 1. Demolition: Remove existing OSP cable in conflict with the buildings demolition scope. 2. Interbuilding Conduit: a. Site underground conduit will be placed to the building BDF. The BDF will be connected through two distinct paths connecting the two campus Main Distribution Centers (MDC). Three 4" conduits will be placed for each MDC pathway to the campus infrastructure point of connection (POC). b. Each conduit will have four 1" HDPE, SDR11 innerduct: red. white, blue and black. Existing innerduct will be used in existing conduit where available. New Innerduct will be installed as required for cable installation. 3. Intrabuilding Riser Conduit Telecommunications Systems Narrative Page 2 The Engineering Enterprise

III. a. All conduits, fittings, back boxes, and pull boxes will conform to UL Standard 514. All fittings will have nylon insulated throats. b. Riser conduit will be installed from the BDF to the 1st floor IDF. Three 4" conduits will be provided with 4 1" innerduct in each conduit. Conduit radius bends shall not be less than 48". c. The riser shall be stacked from the 1st floor to the 7th floor. The stack at each floor shall have a 4 square foot floor slot for riser and horizontal cable. The slot shall be located on the same wall as the door. 4. Cable Tray a. Cable tray will be installed above the ceiling on each floor to convey horizontal structured cabling to the BDF, CPF and IDF rooms. b. Tray will be sized to support double the initial horizontal cable. c. Trays will be equipped with dividers, to separate data cable from security cable systems. d. Trays will be equipped with factory 24" radius bends. e. Trays will be supported from structure a minimum of 8" above ceiling. 5. Conduit Sleeves: a. Fire Rated Conduit sleeves will be provided to exit the BDF, IDF and CPF rooms, and through sheer or rated walls in the building for distribution of the structured cabling. b. Quantity of sleeves will be provided at 40% of the area of the sleeve to be equal to 50% of the cable tray area. 6. Workstation Conduits a. Conduits shall be 1.25" to the workstation outlet and terminate above the ceiling or at the cable tray. Conduit shall terminate in 4-11/16" back boxes. All conduits at the ceiling shall be fitted with nylon fittings. BACKBONE CABLE A. Interbuilding Fiber: 1. Site singlemode fiber cable shall be provided from each MDC to the BDF. MDC-S15 is located at the Medical Sciences Building, 513 Parnassus Ave, Room S15. MDC-AC50 is located at the Ambulatory Care Center, 400 Parnassus Ave, Room AC50. 2. Each SMF will consist of 36 strands. 3. All fiber shall be fusion spliced at both ends to factory terminated SCPC pigtails and placed in fiber termination panels. 4. Each fiber shall be tested bi-directionally at 1310nm with a light source and power meter. B. Interbuilding Fire Alarm Fiber. 1. Fire Alarm singlemode fiber cable shall be provided from an adjacent buildings BDF (TBD) to the BDF. The fiber will be placed in red 1" innerduct. Telecommunications Systems Narrative Page 3 The Engineering Enterprise

IV. 2. Each SMF will consist of 12 strands. 3. All fiber shall be fusion spliced at both ends to factory terminated pigtails and placed in a wall mounted ADC-FL1000 panel. 4. Each fiber shall be tested bi-directionally at 1310nm with a light source and power meter. C. Intrabuilding Riser Fiber Cable 1. Install 72 strands of SMF to each IDF room from the BDF. 2. Install 6 strand SMF to the BMS office from the BDF. 3. Each fiber shall be placed in 1" innerduct. 4. All fiber shall be fusion spliced at both ends to factory terminated LC pigtails and placed in fiber termination panels. 5. Each fiber shall be tested bi-directionally at 1310nm with a light source and power meter. D. Interbuilding Copper Cable: 1. New copper cable will originate from the campus AT&T MPOE. 2. Install (2 ea. 100 pair) ANMA cables... Each cable will be placed in 1.25" innerduct. 3. Cables will be spliced to 100 pair protector panels at both ends with 5 pin fuses. Output of the protectors will terminate on AT&T VisiPatch Termination Blocks. 4. Crossconnect 50% of the copper cable at the MPOE. 5. Test all pairs for continuity, opens and shorts. E. Intrabuilding Riser Copper Cable 1. Provide 50 pair CMR cable to each IDF from the BDF. Cables shall be placed in 1" innerduct. 2. Terminate cables at both ends on AT&T VisiPatch termination blocks. 3. Crossconnect 50% of the Interbuilding copper cable to the riser cable (33 pair each riser) at the BDF. 4. Test all pairs for continuity, opens and shorts. TELECOMMUNICATIONS SPACES A. Telecommunications Spaces Rooms: 1. BDF: The Building Distribution Facility (BDF) will be located in the basement. The room will serve as the entrance facility for all campus site cable, riser distribution and the horizontal distribution for the basement IDF. The room will be equipped with equipment racks, and overhead cable runway. Walls will be covered with fire rated plywood. 2. IDF: The Intermediate Distribution Facility (IDF) will be located on the 2nd, 4th and 6th floors (or as coordinated with the architect). The room will serve as the horizontal cable distribution for the floor located on and below. The room will be equipped with equipment racks, and overhead cable runway. Walls will be covered with fire rated plywood. Telecommunications Systems Narrative Page 4 The Engineering Enterprise

3. CPF: The Cable Pass Through Facility (CPF) will be located on the 1st, 3rd, 5th and 7th floors (or as coordinated with the architect). This room allows for passing riser cable through the IDF stack and horizontal cable installation to the floors below the IDF. Walls will be covered with fire rated plywood. B. Telecommunications Ground 1. The telecommunications ground will be provided from the BDF to the 6th floor IDF. 2. The Main Ground Bus Bar (TMGB) will be located in the BDF. A copper bus will be routed through the riser system and connect to the Telecom Grounding Busbar (TGB) at each IDF. The TMGB will be bonded to the electrical facility. 3. Stranded #6 copper will be used to bond overhead cable runway, equipment racks, conduit, cable shielding and building steel to the TMGB and TGB. V. STRUCTURED CABLE A. Structured Cable system cabling: 1. The system shall be Systemax category 6. All cable will be routed in conduit, Cable Tray and J-hooks. 2. Cable shall terminate on category 6 IDC jacks at the workstation and on VisiPatch termination blocks at the IDF. 3. Systemax XL7 Line cords shall be provided and installed for each cable installed at the workstation. 4. Patch cords shall be provided for each cable installed at the IDF. IDF cords shall be Systemax 119 cords between the VisiPatch and the network switch. B. Network Switches 1. Install owner provided network switches and interconnect to the structured cabling. C. Wireless Access Points 1. Install owner furnished wireless access points. Install 1 for every 750GSF. D. VoIP Telephone Sets 1. Install owner furnished VoIP telephone hand sets and interconnect each set to the Network switches at the IDF and the hand set to the data jack. END OF SECTION Telecommunications Systems Narrative Page 5 The Engineering Enterprise

Deryle Row, RCDD Low Voltage Systems Designer Deryle brings over 30 years of demonstrated success in a broad range of network, telecom, audio visual, fire alarm and security system planning, design, and implementation. He has been a Registered Communications Distribution Designer (RCDD) since 2001 and is an active member of Building Industry Consulting Services International (BICSI). Deryle specializes in building Infrastructure Design and is the lead telecommunication/low voltage systems designer at TEE. Education I Training General Education, 1974, Eastern Montana College, Billings, Montana Advanced Electronics Training on Fire Control Radar, 1977, U.S. Navy AA, Electronics, 1981, San Jose City College, San Jose, CA Registrations Registered Communications Distribution Designer (RCDD), 2001 Professional Certification AT&T (Avaya) in Fiber Optic Design and Category 6 Design Siemons Architect Design Program AMP's ND&I Program Leviton s Extreme 6+ and Opt-X Fiber Systems Affiliations Building Industry Consulting Service International Total Years of Experience 32 Prior to joining The Engineering Enterprise Deryle worked as lead infrastructure designer for a major Sacramento Area consulting firm for thirteen years, as a LAN cabling consultant for six years and as an Operations Manager in the Low Voltage cable installation industry for eight years. During his career, he has provided technical sales support, system design, project management, sub-contracting and Operations Management and is proficient in fiber optic termination, and splicing. Relevant Project Experience U.C. DAVIS KERR HALL MODERNIZATION, Davis, CA U.C. DAVIS HOG BARN MODERNIZATION, Davis, CA U.C. DAVIS RECITAL HALL B, Davis, CA CSU CHICO AV STANDARDS, Chico, CA CSU SACRAMENTO MENDOCINO FIRE ALARM UP-GRADE, CSU SACRAMENTO DEL NORTE HALL, CSU SACRAMENTO CAMPUS COMMUNICATION INFRASTRUCTURE, CSU SACRAMENTO SEQUOIA HALL LAB REMODEL, CSU SACRAMENTO HEALTH AND WELLNESS RECREATION CENTER, CSU SACRAMENTO BROAD ATHLETIC CENTER, CSU SACRAMENTO INFORMATION TECHNOLOGY CENTER, CSU SACRAMENTO FOLSOM HALL NURSING CENTER,. CSU SACRAMENTO DATA CENTER, AMERICAN RIVER COLLEGE FINE ARTS BUILDING, AMERICAN RIVER COLLEGE FINE ARTS INSTRUCTIONAL SPACE ADDITION, AMERICAN RIVER COLLEGE LEARNING RESOURCE CENTER, Sacramento CA AMERICAN RIVER COLLEGE SCHOOL OF NURSING, Sacramento CA AMERICAN RIVER COLLEGE CAMPUS STUDENT CENTER, Sacramento CA AMERICAN RIVER COLLEGE INDUSTRIAL ARTS BUILDING, Sacramento CA