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JUSTICE COURT FACILITY ADDITION TO

MARSHALL COUNTY JUSTICE COMPLEX

NEW ALBANY, MISSISSIPPI

ADDENDUM NO.4

February 2, 2018

1. CHANGES TO CONTRACT DOCUMENTS

SITE PREPARATION:

Clarification:

The existing site has been rough graded, however there are isolated areas that the Contractor may

need to finish grubbing the grass from and bring to finish grade. All areas under the proposed

parking lots and buildings will be scarified to an 8 inch depth and re-compacted. There may be

areas that require minimal undercut or up to 2 feet as outlined on page 3, “Site Preparation “ of

the GEO-technical Investigation, Prepared by Precision Engineering Corporation, Dated

September 18, 2017. It may be viewed at Dean and Dean/Associates.

For any areas that have to be undercut, that material can be disposed of on site. Any borrow

material required can be found on site as well.

Any granular material needed for finish grading or to meet minimal depths under parking and

buildings shall be provided by Contractor.

All other provisions of the Contract Documents and Construction Drawings shall remain

unchanged and in full effect.

This addendum shall be attached to and become part of the Contract Documents referred to

herein.

February 2, 2018

MECHANICAL ADDENDUM NO. 1

PROJECT: New Justice Court Facility and New 80 Inmate Housing Addition

Marshall County Justice Complex

Holly Springs, Mississippi

FROM: Edmonds Engineering, Inc.

1900 Lakeland Drive, Suite 1

Jackson, Mississippi 39216

The following additions, changes, clarifications and/or substitutions to the Project Drawings as indicated are

hereby made a part of the Contract Documents. Acknowledge receipt of this Addendum by inserting its

number and date in the Proposal Form where indicated.

Item No. 1: Drawings, Sheet M201, Package Unit Detail: See attached revised Package Unit Detail as

shown on Drawing, Sheet M201R1.

Item No. 2: Drawings, Sheet M201, Exhaust Fan Schedule: See attached revised Exhaust Fan

Schedule as shown on Drawing M201R2 for revised EF-15 and EF-16. Provide motorized

damper at EF-15 and EF-16.

Item No. 3: Drawings, Sheet FP101: See attached Drawing FP101R1 indicating locations of Institutional

type head and deletion of pre-action system in Sally Port.

END OF MECHANICAL ADDENDUM NO. 1

DD 8/2017 PN17017 265600-1

SECTION 265600 EXTERIOR LIGHTING

PART 1 - GENERAL 1.1 SUMMARY

A. This Section includes the following:

1. Exterior luminaires with lamps and ballasts. 2. Luminaire-mounted photoelectric relays. 3. Poles and accessories.

B. See Division 26 Section "Interior Lighting" for exterior luminaires normally mounted on

exterior surfaces of buildings. 1.2 STRUCTURAL ANALYSIS CRITERIA FOR POLE SELECTION

A. Dead Load: Weight of luminaire and its horizontal and vertical supports and supporting

structure, applied as stated in AASHTO LTS-4. B. Ice Load: Load of 3 lbf/sq. ft. (143.6 Pa), applied as stated in AASHTO LTS-4. C. Wind Load: Pressure of wind on pole and luminaire, calculated and applied as stated

in AASHTO LTS-4. 1. Wind speed for calculating wind load for poles 50 feet (15 m) or less in height is

110 mph (177 km/h). 1.3 SUBMITTALS

A. Product Data: For each luminaire, pole, and support component, arranged in order of

lighting unit designation. Include data on features, accessories, and finishes. B. Shop Drawings: Include anchor-bolt templates keyed to specific poles and certified by

manufacturer. 1.4 QUALITY ASSURANCE

A. Electrical Components, Devices, and Accessories: Listed and labeled as defined in

NFPA 70, Article 100, by a testing agency acceptable to authorities having jurisdiction, and marked for intended use.

B. Comply with IEEE C2, "National Electrical Safety Code." C. Comply with NFPA 70.

PART 2 - PRODUCTS

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2.1 MANUFACTURERS A. In Exterior Lighting Device Schedule where titles below are column or row headings

that introduce lists, the following requirements apply to product selection: 1. Available Manufacturers: Subject to compliance with requirements,

manufacturers offering products that may be incorporated into the Work include, but are not limited to, manufacturers specified.

2. Manufacturers: Subject to compliance with requirements, provide products by one of the manufacturers specified.

3. Basis of Design Product: The design of each item of exterior luminaire and its support is based on the product named. Subject to compliance with requirements, provide either the named product or a comparable product by one of the other manufacturers specified.

2.2 LUMINAIRES, GENERAL REQUIREMENTS

A. Luminaires shall comply with UL 1598 and be listed and labeled for installation in wet

locations by an NRTL acceptable to authorities having jurisdiction. B. Comply with IESNA RP-8 for parameters of lateral light distribution patterns indicated

for luminaires. C. Metal Parts: Free of burrs and sharp corners and edges. D. Sheet Metal Components: Corrosion-resistant aluminum, unless otherwise indicated.

Form and support to prevent warping and sagging. E. Housings: Rigidly formed, weather- and light-tight enclosures that will not warp, sag, or

deform in use. Provide filter/breather for enclosed luminaires. F. Doors, Frames, and Other Internal Access: Smooth operating, free of light leakage

under operating conditions, and designed to permit relamping without use of tools. Designed to prevent doors, frames, lenses, diffusers, and other components from falling accidentally during relamping and when secured in operating position. Doors shall be removable for cleaning or replacing lenses. Designed to disconnect ballast when door opens.

G. Exposed Hardware Material: Stainless steel. H. Plastic Parts: High resistance to yellowing and other changes due to aging, exposure

to heat, and UV radiation. I. Light Shields: Metal baffles, factory installed and field adjustable, arranged to block

light distribution to indicated portion of normally illuminated area or field. J. Reflecting surfaces shall have minimum reflectance as follows, unless otherwise

indicated: 1. White Surfaces: 85 percent. 2. Specular Surfaces: 83 percent.

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3. Diffusing Specular Surfaces: 75 percent. K. Lenses and Refractors Gaskets: Use heat- and aging-resistant resilient gaskets to

seal and cushion lenses and refractors in luminaire doors. L. Luminaire Finish: Manufacturer's standard paint applied to factory-assembled and -

tested luminaire before shipping. Where indicated, match finish process and color of pole or support materials.

M. Factory-Applied Finish for Steel Luminaires: Color as selected by Architect. Comply

with NAAMM's "Metal Finishes Manual for Architectural and Metal Products" for recommendations for applying and designating finishes.

N. Factory-Applied Finish for Aluminum Luminaires: Color shall be determined by

architect. Comply with NAAMM's "Metal Finishes Manual for Architectural and Metal Products" for recommendations for applying and designating finishes.

2.3 LUMINAIRE-MOUNTED PHOTOELECTRIC RELAYS

A. Comply with UL 773 or UL 773A. B. Contact Relays: Factory mounted, single throw, designed to fail in the on position, and

factory set to turn light unit on at 1.5 to 3 fc (16 to 32 lx) and off at 4.5 to 10 fc (48 to 108 lx) with 15-second minimum time delay. 1. Relay with locking-type receptacle shall comply with NEMA C136.10. 2. Adjustable window slide for adjusting on-off set points.

2.4 FLUORESCENT BALLASTS AND LAMPS

A. Low-Temperature Ballast Capability: Rated by its manufacturer for reliable starting and

operation of indicated lamp(s) at temperatures 0 deg F (minus 18 deg C) and higher. B. Ballast Characteristics:

1. Power Factor: 90 percent, minimum. 2. Sound Rating: A. 3. Total Harmonic Distortion Rating: Less than 10 percent. 4. Electromagnetic Ballasts: Comply with ANSI C82.1, energy-saving, high power

factor, Class P, automatic-reset thermal protection. 5. Case Temperature for Compact Lamp Ballasts: 65 deg C, maximum. 6. Transient-Voltage Protection: Comply with IEEE C62.41 Category A or better.

C. Low-Temperature Lamp Capability: Rated for reliable starting and operation with

ballast provided at temperatures 0 deg F (minus 18 deg C) and higher. D. Fluorescent Lamps: Low-mercury type. Comply with the EPA's toxicity characteristic

leaching procedure test; shall yield less than 0.2 mg of mercury per liter when tested according to NEMA LL 1.

2.5 BALLASTS FOR HID LAMPS

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A. Comply with ANSI C82.4 and UL 1029 and capable of open-circuit operation without

reduction average life. Include the following features, unless otherwise indicated: 1. Ballast Circuit: Constant-wattage autotransformer or regulating high-power-

factor type. 2. Minimum Starting Temperature: Minus 22 deg F (Minus 30 deg C). 3. Normal Ambient Operating Temperature: 104 deg F (40 deg C). 4. Ballast Fuses: One in each ungrounded power supply conductor. Voltage and

current ratings as recommended by ballast manufacturer. B. High-Pressure Sodium Ballasts: Electromagnetic type with solid-state igniter/starter

and capable of open-circuit operation without reduction of average lamp life. Igniter/starter shall have an average life in pulsing mode of 10,000 hours at an igniter/starter-case temperature of 90 deg C. 1. Instant-Restrike Device: Integral with ballast, or solid-state potted module,

factory installed within fixture and compatible with lamps, ballasts, and mogul sockets up to 150 W. a. Restrike Range: 105- to 130-V ac. b. Maximum Voltage: 250-V peak or 150-V ac RMS.

2. Minimum Starting Temperature: Minus 40 deg F (Minus 40 deg C).

2.6 HID LAMPS

A. High-Pressure Sodium Lamps: ANSI C78.42, CRI 21 (minimum), color temperature

1900 K, and average rated life of 24,000 hours, minimum. B. Metal-Halide Lamps: ANSI C78.1372, with a minimum CRI 65, and color temperature

4000 K. C. Pulse-Start, Metal-Halide Lamps: Minimum CRI 65, and color temperature 4000 K. D. Ceramic, Pulse-Start, Metal-Halide Lamps: Minimum CRI 80, and color temperature

4000 K. 2.7 POLES AND SUPPORT COMPONENTS, GENERAL REQUIREMENTS

A. Structural Characteristics: Comply with AASHTO LTS-4.

1. Wind-Load Strength of Poles: Adequate at indicated heights above grade

without failure, permanent deflection, or whipping in steady winds of speed indicated in Part 1 "Structural Analysis Criteria for Pole Selection" Article, with a gust factor of 1.3.

2. Strength Analysis: For each pole, multiply the actual equivalent projected area of luminaires and brackets by a factor of 1.1 to obtain the equivalent projected area to be used in pole selection strength analysis.

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B. Luminaire Attachment Provisions: Comply with luminaire manufacturers' mounting requirements. Use stainless-steel fasteners and mounting bolts, unless otherwise indicated.

C. Mountings, Fasteners, and Appurtenances: Corrosion-resistant items compatible with

support components. 1. Materials: Shall not cause galvanic action at contact points. 2. Anchor Bolts, Leveling Nuts, Bolt Caps, and Washers: Hot-dip galvanized after

fabrication, unless stainless-steel items are indicated. 3. Anchor-Bolt Template: Plywood or steel.

D. Concrete Pole Foundations: Cast in place, with anchor bolts to match pole-base

flange. Concrete, reinforcement, and formwork are specified in Division 3 Section "Cast-in-Place Concrete."

E. Power-Installed Screw Foundations: Factory fabricated by pole manufacturer, with

structural steel complying with ASTM A 36/A 36M and hot-dip galvanized according to ASTM A 123/A 123M; and with top-plate and mounting bolts to match pole base flange and strength required to support pole, luminaire, and accessories.

F. Breakaway Supports: Frangible breakaway supports, tested by an independent testing

agency acceptable to authorities having jurisdiction, according to AASHTO LTS-4. 2.8 STEEL POLES

A. Poles: Comply with ASTM A 500, Grade B, carbon steel with a minimum yield of

46,000 psig (317 MPa); 1-piece construction up to 40 feet (12 m) in height with access handhole in pole wall. 1. Shape: Square, straight. 2. Mounting Provisions: Butt flange for bolted mounting on foundation or

breakaway support. B. Steel Mast Arms: Single-arm type, continuously welded to pole attachment plate.

Material and finish same as pole. C. Brackets for Luminaires: Detachable, cantilever, without underbrace.

1. Adapter fitting welded to pole and bracket, then bolted together with stainless -

steel bolts. 2. Cross Section: Tapered oval, with straight tubular end section to accommodate

luminaire. 3. Match pole material and finish.

D. Pole-Top Tenons: Fabricated to support luminaire or luminaires and brackets

indicated, and securely fastened to pole top. E. Steps: Fixed steel, with nonslip treads, positioned for 15-inch (381-mm) vertical

spacing, alternating on opposite sides of pole; first step at elevation 10 feet (3 m) above finished grade.

DD 8/2017 PN17017 265600-6

F. Grounding and Bonding Lugs: Welded 1/2-inch (13-mm) threaded lug, complying with

requirements in Division 16 Section "Grounding and Bonding," listed for attaching grounding and bonding conductors of type and size listed in that Section, and accessible through handhole.

G. Cable Support Grip: Wire-mesh type with rotating attachment eye, sized for diameter

of cable and rated for a minimum load equal to weight of supported cable times a 5.0 safety factor.

H. Prime-Coat Finish: Manufacturer's standard prime-coat finish ready for field painting. I. Galvanized Finish: After fabrication, hot-dip galvanize complying with

ASTM A 123/A 123M. J. Factory-Painted Finish: Comply with NAAMM's "Metal Finishes Manual for

Architectural and Metal Products" for recommendations for applying and designating finishes. Color shall be as selected by Architect.

2.9 ALUMINUM POLES

A. Poles: Seamless, extruded structural tube complying with ASTM B 429, Alloy 6063-T6

with access handhole in pole wall. B. Pole-Top Tenons: Fabricated to support luminaire or luminaires and brackets

indicated, and securely fastened to pole top. C. Grounding and Bonding Lugs: Welded 1/2-inch (13-mm) threaded lug, complying with

requirements in Division 16 Section "Grounding and Bonding," listed for attaching grounding and bonding conductors of type and size listed in that Section, and accessible through handhole.

D. Brackets for Luminaires: Detachable, with pole and adapter fittings of cast aluminum.

Adapter fitting welded to pole and bracket, then bolted together with stainless-steel bolts. 1. Tapered oval cross section, with straight tubular end section to accommodate

luminaire. 2. Finish: Same as pole.

E. Prime-Coat Finish: Manufacturer's standard prime-coat finish ready for field painting. F. Aluminum Finish: Comply with NAAMM's "Metal Finishes Manual for Architectural and

Metal Products" for recommendations for applying and designating finishes. Color shall be as selected by Architect from manufacturer's full range.

2.10 POLE ACCESSORIES

A. Base Covers: Manufacturers' standard metal units, arranged to cover pole's mounting

bolts and nuts. Finish same as pole.

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PART 3 - EXECUTION 3.1 LUMINAIRE INSTALLATION

A. Install lamps in each luminaire. B. Fasten luminaire to indicated structural supports.

1. Use fastening methods and materials selected to resist seismic forces defined for

the application and approved by manufacturer. C. Adjust luminaires that require field adjustment or aiming.

3.2 POLE INSTALLATION

A. Align pole foundations and poles for optimum directional alignment of luminaires and

their mounting provisions on the pole. B. Clearances: Maintain the following minimum horizontal distances of poles from surface

and underground features, unless otherwise indicated on Drawings: 1. Fire Hydrants and Storm Drainage Piping: 60 inches (1520 mm). 2. Water, Gas, Electric, Communication, and Sewer Lines: 10 feet (3 m). 3. Trees: 15 feet (5 m).

C. Concrete Pole Foundations: Set anchor bolts according to anchor-bolt templates

furnished by pole manufacturer. Concrete materials, installation, and finishing requirements are specified in Division 3 Section "Cast-in-Place Concrete."

D. Foundation-Mounted Poles: Mount pole with leveling nuts, and tighten top nuts to

torque level recommended by pole manufacturer. 1. Use anchor bolts and nuts selected to resist seismic forces defined for the

application and approved by manufacturer. 2. Grout void between pole base and foundation. Use nonshrink or expanding

concrete grout firmly packed to fill space. 3. Install base covers, unless otherwise indicated. 4. Use a short piece of 1/2-inch- (13-mm-) diameter pipe to make a drain hole

through grout. Arrange to drain condensation from interior of pole. E. Embedded Poles with Tamped Earth Backfill: Set poles to depth below finished grade

indicated on Drawings, but not less than one-sixth of pole height. 1. Dig holes large enough to permit use of tampers in the full depth of hole. 2. Backfill in 6-inch (150-mm) layers and thoroughly tamp each layer so compaction

of backfill is equal to or greater than that of undisturbed earth. F. Embedded Poles with Concrete Backfill: Set poles in augered holes to depth below

finished grade indicated on Drawings, but not less than one-sixth of pole height.

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1. Make holes 6 inches (150 mm) in diameter larger than pole diameter. 2. Fill augered hole around pole with air-entrained concrete having a minimum

compressive strength of 3000 psi (20 MPa) at 28 days, and finish in a dome above finished grade.

3. Use a short piece of 1/2-inch- (13-mm-) diameter pipe to make a drain hole through concrete dome. Arrange to drain condensation from interior of pole.

4. Cure concrete a minimum of 72 hours before performing work on pole. G. Poles and Pole Foundations Set in Concrete Paved Areas: Install poles with minimum

of 6-inch- (150-mm-) wide, unpaved gap between the pole or pole foundation and the edge of adjacent concrete slab. Fill unpaved ring with pea gravel to a level 1 inch (25 mm) below top of concrete slab.

H. Raise and set poles using web fabric slings (not chain or cable).

3.3 BOLLARD LUMINAIRE INSTALLATION

A. Align units for optimum directional alignment of light distribution. B. Install on concrete base with top 4 inches (100 mm) above finished grade or surface at

bollard location. Cast conduit into base, and shape base to match shape of bollard base. Finish by troweling and rubbing smooth. Concrete materials, installation, and finishing are specified in Division 3 Section "Cast-in-Place Concrete."

3.4 INSTALLATION OF INDIVIDUAL GROUND-MOUNTING LUMINAIRES

A. Install on concrete base with top 4 inches (100 mm) above finished grade or surface at

luminaire location. Cast conduit into base, and finish by troweling and rubbing smooth. Concrete materials, installation, and finishing are specified in Division 3 Section "Cast-in-Place Concrete."

3.5 CORROSION PREVENTION

A. Aluminum: Do not use in contact with earth or concrete. When in direct contact with a

dissimilar metal, protect aluminum by insulating fittings or treatment. B. Steel Conduits: Comply with Division 16 Section "Raceways and Boxes." In concrete

foundations, wrap conduit with 0.010-inch- (0.254-mm-) thick, pipe-wrapping plastic tape applied with a 50 percent overlap.

3.6 GROUNDING

A. Ground metal poles and support structures according to Division 16 Section

"Grounding and Bonding." 1. Install grounding electrode for each pole, unless otherwise indicated. 2. Install grounding conductor pigtail in the base for connecting luminaire to

grounding system. B. Ground nonmetallic poles and support structures according to Division 16 Section

"Grounding and Bonding."

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1. Install grounding electrode for each pole. 2. Install grounding conductor and conductor protector. 3. Ground metallic components of pole accessories and foundations.

END OF SECTION

DD 8/2017 PN17085 270900-1

SECTION 270900 LOCKING AND INMATE ELECTRICAL SERVICES CONTROL SYSTEM

PART 1 – GENERAL 1.01 DESCRIPTION

A. The work covered by this Section of the Specifications shall include all labor, equipment, materials and services to furnish and install, calibrate, adjust, document, and test the total system as required herein and on the drawings. All materials and labor specified under this Specification Section, shall be furnished by a single pre-qualified SEC, (security electronics contractor), who shall assume responsibility for the detailing, coordinating, supplying, installing, programming, performance and warranty of this work, in accordance with this specification section. This project consists of providing, installation, start-up, testing, and training of Owner personnel in the use of new Electronic Security System equipment. The system shall be computer based and shall seamlessly integrate the following security systems into a single unified system with a common Touch screen control interface. Division 270910 - Closed Circuit Television Division 270960 - Security System

B. All interconnections between systems shall be data connections only and shall be coordinated by

the security management computer and software. All operations shall be as herein described and as shown on the drawings.

C. This section only applies to the jail facility. 1.02 OVERVIEW

A. The Touch screen Control System (TCS) shall control all electrically controlled hardware, motorized gates and doors, and other devices as indicated, including, but not limited to, electric locks, lighting circuits, television circuits, water valves, inmate telephones. The system shall monitor and annunciate the status condition of electrically equipped hardware, doors, gates, control conditions, security conditions, Intercom calls, call-in signals, Panic alarm signals, and shall provide on screen CCTV Camera ICON’s for Camera switching and other functions as described herein and on the drawings. The system shall perform logic functions to provide operational characteristics as described herein. The system shall interface with other systems for control and annunciation including, but not limited to, the electrical and mechanical.

B. The Touch screen control system shall be designed, manufactured, configured and integrated by a

single security systems integrator. It shall be installed by a single security systems contractor.

C. This specification is intended to describe the basic system operation and components. Provide all equipment, material, circuitry, and labor for a complete and operable system.

D. Coordinate with the General Contractor, the Lock Hardware Contractor, and all sub-contractors on

the project prior to bid to ensure that all equipment you plan to furnish will operate properly and will fit in the space provided for it. Notify the electrical contractor of the power requirements for all of your equipment prior to bid. Inform the electrical contractor that he is to provide all equipment and circuitry necessary to feed your equipment.

E. Submit six copies of manufacturer’s cut sheets and shop drawings bearing the stamps of the

Millwork Contractor, the HVAC Contractor, the Plumbing Contractor, the Fire Protection Contractor, and all other sub-contractors. This requirement is intended to ensure that there are no conflicts between trades during construction. The contractor has the authority and responsibility to modify the mounting locations, mounting heights, etc., with the Architect’s approval, in order to avoid conflicts. The Contractor shall provide equipment sized to fit in spaces provided or shall pay for the architectural modifications if conflicts arise during construction. Proper coordination with other

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trades will ensure that architectural modification may be adjusted before construction begins. Shop drawings shall show all components and circuitry including terminal-to-terminal connections for this project. Provide a schematic diagram showing all components and circuitry with the connecting circuitry described and terminal connections shown.

F. Notify the General Contractor that he is to call a coordination meeting for Electrical Systems prior to

the submittal of manufacturer’s cut sheets and shop drawings. The meeting shall include all sub-contractors; the engineer and architect shall be invited to attend. Notify the architect and engineer at least two weeks prior to the meeting.

G. The system shall be a touch-screen controlled, personal computer based system with the floor plan

as the background image. 1.03 SUBMITTAL REQUIREMENTS

A. Provide descriptive literature, catalog cut sheets, illustrations, schematics, technical data sheets, and test data necessary for the owner to ascertain that the proposed equipment and materials comply with the specifications requirements. Include manufacturer’s name, model, catalog or part numbers. Catalog cuts shall be legible and shall clearly identify equipment being submitted.

B. Provide six (6) complete submittal sets in paper form (both cut sheets and shop drawings) and

additionally provide six (6) complete submittal sets on CD in Adobe Acrobat .PDF format. Product data sheets shall all be compiled into a .PDF file. Shop drawings shall be in a separate file from the Product data sheets.

1. Provide manufacturer's roughing-in diagrams, product specifications and instructions for

installation, operation and maintenance, suitable for inclusion in maintenance manuals.

2. Provide copies of supplier's published component data sheets and product warranties.

3. Provide detailed full scale drawings of the graphic user interface screens.

4. Provide detailed drawings of the security equipment cabinets including exact layout of all components.

5. Provide description of operation of system similar to that provided in this specification, to include

any and all exceptions, variances, or substitutions listed at the time of bid. Any such exceptions, variances or substitutions which were not listed at the time of bid and are identified in the submittal, shall be grounds for immediate disapproval without comment.

6. Provide evidence of the following required manufacturer and installer qualifications:

a. The intent of this specification is to insure the Locking Control systems described herein are

manufactured and installed by a technically experienced manufacturer and contractor.

1. The Touch screen Control System manufacturer shall be a company specializing in the design and manufacture of Detention Control Systems. The manufacturer must have been in business using the same name for a minimum period of Ten (10) years, providing security control equipment of similar scope and complexity as this project.

2. Provide a history of the manufacturer.

3. Provide a “Company Profile” describing the type and scope of the projects for which the manufacturer has supplied this equipment.

4. Provide a list of at least ten (10) projects of similar (or larger) size and scope as this

project. Include: general contractor name and contact, electrical contractor name and contact, owner's name and contact (name of person in charge of maintenance is preferred). Include address and phone number of all.

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b. The Electronic Security Control System installer, herein referred to as “Contractor” shall be a security systems contractor familiar with the installation of Detention Control Systems and an authorized and certified dealer or distributor in good standing with the system manufacturer. The installer must have been in business using the same name for a minimum of five (5) years. All of the system installer’s employees who work on the locking control system must hold current manufacturer certification for the type of system being installed.

1. Provide a history of the installing company. 2. Provide a “Company Profile” describing the type and scope of the work of the

installing company. 3. Provide a list of at least ten (10) projects of similar size and scope (or larger) as this

project. Include: general contractor name and contact, electrical contractor name and contact, owner's name and contact (name of person in charge of maintenance is preferred). Include address and phone number of all.

4. Provide evidence of authorized dealer status for control system manufacturer, such

as a current dealer license. 5. Provide evidence that all installers hold current manufacturer’s certification as

installers or technicians.

c. Where the contractor is a branch office or other division of a larger organization, the qualifications of the branch office or other division shall meet the requirements of the Contract Documents.

d. The installer shall provide a project manager/ coordinator/ superintendent for the overall

management and supervision of the work. The manager/coordinator/ superintendent shall have the following qualifications:

1. Provide resume for the individual including at least five (5) projects of the same size

and complexity of this one.

a) Individual must be a full time employee of the installer. b) Individual must be minimally certified as an installer/technician by the system

manufacturers.

D. Submittals will not be considered unless they are complete. Partial or incomplete submittals will be immediately rejected without comment.

E.Specifically identify any deviations from the contract drawings.

F. Approval of the Submittal does not alleviate the contractor from any of the requirements of the

contract drawings or documents or nullify any terms or conditions contained herein unless explicitly set forth in an addendum.

G. The Architect reserves the right to disqualify manufacturers, equipment suppliers, or contractors who

do not comply with the requirements of this section of the specifications. 1.04 MAINTENANCE MANUALS

A. Provide six (6) paper sets of a complete operation and maintenance manual and six (6) paper sets of updated As-built installation drawings prior to the final inspection. Also include six (6) sets of the Operation and Maintenance manual and As-built drawings on CD’s in Adobe Acrobat .PDF file format. Include the most current version of the Adobe Acrobat viewing software on the CD’s. All letter size drawings shall be compiled in a single file, and shall be catalogued and bookmarked for convenient navigation. Provide bookmarks for each section heading as well as for each sub section.

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Also provide an index or outline page that lists the contents of the manual, with links to each section and sub section of the manual.

B. The following information shall be inscribed on the cover of the paper manuals:

1. "OPERATION AND MAINTENANCE MANUAL" 2. Building location. 3. The name, address and phone number of the contractor, system manufacturer and system

subcontractor.

C. The manual shall be legible, well organized and easily read. Included in the manual shall be circuit drawings, wiring and control diagrams with data to explain detailed operation and control of each item of equipment and a control sequence describing start up instructions. Also included shall be installation instructions, maintenance instructions, safety precautions, test procedures, performance data, and other necessary documentation.

D. A copy of the system certification and final tests results, as specified in Part 3 of this section of

specifications, shall be included in this manual. 1.05 PRODUCT HANDLING

A. Deliver each piece of equipment in durable shipping containers. Maintain cartons through shipping, storage and handling as required to prevent damage and eliminate dirt and moisture. Wrap all equipment in heavy packing cellophane for moisture protection.

B. All equipment MUST be stored in a climate controlled environment. On site storage trailers or

containers that are not climate controlled are strictly prohibited. 1.06 RELATED WORK

A. The Contractor shall coordinate work in this Section with all related trades and work and/or equipment provided in other Sections and related to the Touch screen Control System. The “Final Approved” Builders hardware schedule and Detention hardware schedules shall be the basis for the final determination of all doors which are to be monitored and controlled. Other provisions of the specifications with related work include, but are not necessarily limited to, the following:

1. General 2. Electrical 3. Wiring Methods 4. Security Hardware 5. Local Area Network/Computer Data Network 6. Mechanical 7. Millwork

1.07 SYSTEM OPERATION

A. The system shall consist of Touch screen Control Stations (TCS) as shown on the drawings and specified herein, which are connected to Security Equipment Cabinets (SEC). Touch screen Control Stations shall be installed in the locations described below, and as shown on the plans. The TCS’s shall annunciate and control the devices designated on the plans or listed in the approved Detention Hardware Schedule.

B. The Locking and Inmate Electrical Services Control System shall perform the following functions as

well as others described within this specification:

1. Provide “On-Off” control of inmate receptacles. 2. Provide “On-Off” control of inmate lighting including nightlights. 3. Provide “On-Off” control of inmate television sets. 4. Provide “On-Off” control of inmate telephones.

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5. Open and close all automatically-controlled gates and doors. 6. Lock and unlock all automatically-controlled locks.

7. Show on the control panels the status of all gates and doors that are equipped with position switches or electronically controlled locks.

8. Provide the Intercom System. 9. Provide the Sound Threshold Alarm System 10. Provide the Watchtour System. 11. Interface with the CCTV system.

12. Monitor the generator system and annunciate when the system is running on emergency power.

C. The Touch screen Control Station shall provide an ICON for each door lock, lighting circuit,

television outlet, dayroom telephone, intercom station, Paging speakers, CCTV camera, or other devices, as designated on the plans or indicated by the specifications.

D. ICON’s for different functions shall be clearly distinguished by color and by design. Use symbols to

graphically represent the type of hardware being controlled by each ICON such as a speaker symbol for intercom stations, or a lock for door control. Screens shall reflect a graphic layout of each area that is being controlled.

E. All ICON’s shall be “dynamic” i.e. when activated, they shall change to create the appearance that

they have been “pressed in” when touched to provide visual feedback to the operator.

F. The Touch screen shall provide audible feedback for any touch activation unless specified otherwise.

G. Unless necessary to a specific function ICON’s shall not activate on the “touch” but on the “release”.

This means that when an operator presses the ICON, no action will occur. Only when the operator removes their finger will the action take place. If an operator presses an ICON unintentionally, simply sliding their finger off of the ICON to an empty part of the screen and then releasing it shall prevent any action from taking place.

H. The Touch screen shall offer easy navigability from any screen to any screen, and shall always

display which screen is currently being viewed. Provide a navigation bar that will allow one touch navigation to any of the other screens that the operator is authorized to view. Also provide a “Global” ICON that displays the floor plan of the area that the operator can control. Touching any area of the Floor plan shall load the page that controls that area.

I. The maximum time permitted for page turns shall be 50 ms. The maximum time permitted for the

execution of a command (the time between the activation of an ICON and when the selected function takes place) shall be 10 ms

J. System functions shall be as described below:

K. Door Unlock - Where doors are equipped with solenoid, or motorized locks, the following operation

shall apply. Activating the ICON shall provide an unlock the pulse to the hardware. If the hardware is provided with a mechanical hold-open feature, the pulse shall be of sufficient duration to bring the hardware to full unlock. If the hardware is not provided with a mechanical hold-open feature, then the pulse shall be sufficient to provide a 4 second unlock period. Activation of the ICON is annunciated by a change in state of the ICON and an audible beep. The ICON shall function as an indicator for each door to indicate the status of the door. A portion of the ICON shall be green when the door is closed and locked (secure). And portion of the ICON shall be red when the door is closed and locked (secure). The default state of the ICON shall be un-secure. (red) the ICON shall only display green when the door hardware positive indication of secure status.

L. Interlock and Interlock Override - Where two or more doors or gates with electric hardware form a

sally port or where interlocks between hardware sets are indicated on the plans, the operation of the individual hardware sets shall be as specified elsewhere with the following modifications. Each door within the interlock group shall have a yellow interlock active indicator. The indicators in the group

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shall not be visible unless the group is interlocked. The controls shall allow only one of the hardware sets in the interlock group to be un-secure at any given time unless the interlock override function is activated. The interlock override function shall be activated by pressing the two interlock override ICON’s in quick succession. Interlock override shall then latch on for a period of ten (10) seconds. Upon activating the interlock override function, the yellow interlock active indicators over the interlocked doors shall turn off and allow the operator to control all hardware with no interlock restrictions. After the 10 second override period, the system shall return to the secured interlock condition. All Touch screen control stations controlling interlocked doors shall have the interlock override ICON’s and annunciator provisions. The yellow interlock active ICON’s over the interlocked doors shall illuminate on all Touch screens controlling hardware in a given interlock scheme. One and only one unsecured door shall cause a hardware set to become interlocked. Emergency release or Fire release shall override all interlock restrictions. The interlock shall not prevent the authorized door from operating multiple times in both open and closed functions, provided all other doors in the interlock scheme are secure.

M. Motorized Doors and Gates, Vehicle Sally-Ports & Cell Sliders - Where motor operated doors and

gates are installed, the following operation shall apply. Pressing the "open" ICON shall cause the door or gate to travel to the open position. Pressing the "close" ICON shall cause the door or gate to travel to the locked, closed position. Pressing the "stop" ICON while the door is traveling in either direction shall stop the door. Operating the door from "open" to "close" or "close" to "open", without pressing "stop" shall stop the door for a minimum of 3 (three) seconds and then reverse the direction of travel. There shall be an ICON indicator for each door to indicate the status of the door. The indicator shall illuminate green when the door is closed and locked (secure). The indicator shall illuminate red anytime the door is open or unlocked (un-secure).The default state of the ICON shall be un-secure. (red) the ICON shall only display green when the door hardware provides positive indication of secure status.

N. Monitored Only Door Status - There shall be an ICON indicator for each door that is equipped with

monitoring hardware to indicate the status of the door. This shall be the case even for doors that do not have electrically operated locks but are equipped with a door position switch or a bolt position switch. The indicator shall illuminate green when the door is closed and locked (secure). The indicator shall illuminate red anytime the door is open or unlocked (un-secure).The default state of the ICON shall be un-secure. (red) the ICON shall only display green when the door hardware positive indication of secure status.

O. Automatic Fire Emergency Release - When a contact closure is received from the fire alarm system,

the specified group of doors shall unlock and stay unlocked. A screen titled “FIRE EMERGENCY RELEASE” shall be provided and shall flash indicating that the fire alarm system has unlocked the “Fire Release” doors. Provide an acknowledge ICON to return to the control screens and an additional indicator ICON to annunciate the emergency condition. Provide an ICON titled “FIRE RELEASE OVERRIDE” that appears only when Fire emergency release has been activated. This function bypasses the fire alarm systems activation of emergency release and allows the doors to relock. The “FIRE RELEASE OVERRIDE” function shall require the user to supply a correct password prior to activation. If the Fire emergency release override function is not activated, the specified egress doors shall remain unlocked until the fire alarm system is reset. See the plans for Emergency Release door designations.

P. Manual Fire Emergency Release - Emergency Fire release shall be accomplished in two stages.

The first stage is “Egress door release” This shall cause all of the doors in the pre-determined Egress Door group to unlock and remain unlocked. Activation of Egress Door Release shall be annunciated by a pulsing audible beep and a flashing red screen titled “EGRESS DOOR RELEASE ACTIVE!”. The second stage is “Cell Door Release” This shall cause all of the cell doors that are in the pre-determined “Cell Door Release” group to unlock and remain unlocked. Activation of Cell Door Release shall be annunciated by a pulsing audible beep and a flashing red screen titled (CELL DOOR RELEASE ACTIVE!”. Provide an ICON labeled “ERLS Silence” that will silence the audible annunciators for both emergency release functions. There shall be an ICON labeled “Egress Door Release Reset” that will reset Egress Door Release and an ICON labeled “Cell Door Release Reset” that will reset Cell Door Release. See the plans for Emergency Release door designations. Activation of either emergency release group shall only be permitted with proper password

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authentication. Provide a screen that appears after pressing the release ICON that prompts the user to verify if they are sure that they want to activate emergency release. If the user selects “NO” return to normal operation. If the user selects “YES” then provide a screen that prompts the user for a password. The correct password must be supplied to activate either emergency release function.

Q. Lighting And Power Control - Lighting circuits, as shown on the plans, shall be switched by relays

with 20 amp contacts, UL rated for lighting control applications. Relays shall be controlled by ICON’s Touch screen control station. Activating the ICON shall turn on the lights and cause the ICON to change state to indicate that the light is on. Activating the ICON again shall turn off the lights and cause the ICON to return to it’s initial state. Activation of the ICON is annunciated by a change in the ICON’s state and an audible beep. The lighting control relay panel shall be provided by this section. See plans and lighting circuit schedule(s) for required number of panels and circuits.

R. Television Receptacle Control - The 120-volt television receptacle in each jail area space shall be

switched by line voltage relays (provided by this section) controlled by ICON’s on the Touch screen Control Station. Activating the ICON shall turn on the receptacle and cause the ICON to change state to indicate that the receptacle is on. Activating the ICON again shall turn off the receptacle and cause the ICON to return to it’s initial state. Activation of the ICON is annunciated by a change in the ICON’s state and an audible beep. Television receptacle circuits shall be controlled through relays in the lighting control panel. See plans and TV receptacle schedule(s) for required number of panels and circuits.

S. Water Valve Control - The 120-volt water valves for each jail area shall be switched by line voltage

relays (provided by this section) controlled by ICON’s on the Touch screen Control Station. Activating the ICON shall turn on the valve and cause the ICON to change state to indicate that the receptacle is on. Activating the ICON again shall turn off the valve and cause the ICON to return to it’s initial state. Activation of the ICON is annunciated by a change in the ICON’s state and an audible beep. Water valve control circuits shall be controlled through relays in the lighting control panel. See plans and water valve schedule(s) for required number of panels and circuits.

T. Inmate Dayroom Pay Telephone Control - The pay telephones in each dayroom area space shall be

controlled by remote relays (provided by this section) controlled by ICON’s on the Touch screen Control Station. Activating the ICON shall turn on the telephones and cause the ICON to change state to indicate that the telephones are on. Activating the ICON again shall turn off the telephones and cause the ICON to return to it’s initial state. Activation of the ICON is annunciated by a change in the ICON’s state and an audible beep.

U. CCTV Cameras - CCTV cameras shall be represented on the Touch screen Control Stations by

distinct ICON’s. Each camera is further identified with its number adjacent to the CCTV camera symbol location. Activating the camera ICON shall cause the selected camera to be switched to a viewing monitor in the control room. Where cameras are equipped with Pan-Tilt-Zoom (PTZ) capability, provide on-screen PTZ Control that appears when a PTZ camera is selected. Refer to the CCTV system plans and specifications for locations and camera numbers.

V. Intercom stations - Intercom sub stations shall be represented on the Touch screen Control Stations

by distinct ICON’s. each Intercom station or paging zone shall further be identified with its number adjacent to the intercom ICON symbol. When a call is received, the ICON shall flash and an audible beep shall sound. If the operator is not viewing the page where the call originated, then a flashing intercom ICON shall appear on the screen navigation bar over the link for the screen where the call is. Selecting the ICON shall open the talk path and allow the operator to listen. Pressing the PTT (Push To Talk) ICON shall allow the operator to talk to the selected station. Selecting the station ICON shall reset that station.

W. Auto Switching - Provide automatic CCTV camera switching when the call button on an Intercom

stations that is in direct view of a CCTV camera is pressed. This shall take place with on action required by the operator. When the call button on the intercom button is pressed, the associated CCTV camera shall be automatically switched to a “spot” monitor located at the control desk. When the Intercom call has been reset, the monitor shall return to the initial view. The system shall buffer multiple incoming calls in the order they are received.

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X. Emergency Shutdown - Provide an ICON titled “Emergency Shutdown”. Activating this function shall

disable the Touch screen Control Station. In order to re-activate the TCS, the proper administrator level password must be supplied. Entering a global “Duress” username and password will re activate the touch screen control station however it will simultaneously send a distinct emergency duress message to all other touch screens, alerting them that there is an emergency at that station. Provide a re-activate ICON and prompt for password authentication. When Emergency Shutdown is active, the shutdown condition shall be annunciated at all other Touch screen Control Stations, specifying which TCS has be shut down.

Y. Generator Monitor – Monitor the emergency generator system and annunciate when the generator is

operating on emergency power.

Z.. The system shall be designed with fail-safe operation so that any problem with the power or control system results in doors that are securely locked

PART 2 – PRODUCTS 2.01 MATERIALS

All materials, equipment, accessories, devices and other facilities and appurtenances covered by these specifications or noted on the contract drawings and on the contractor's approved working drawings and installation specifications shall be new, best suited for its intended use and shall conform to applicable and recognized standards for their use.

2.02 TOUCH SCREEN CONTROL STATIONS

A. Each touch screen workstation to be provided, as defined hereunder and / or shown on the drawings, shall include the following minimum components and features:

1. A Personal Computer Manufactured by IBM, HP, Dell or approved equal, which shall meet these

minimum requirements and the requirement of equipment and software used: a. 3.6 Ghz Quad-core Intel processor (i5 or better) b. 16 Gb RAM

c. 1 Tb SATA hard drive d. DVD-Burner e. High resolution video graphics card (1920 x 1080) f. 1000 Mbps Ethernet card g. 3 button mouse h. Keyboard i. Microsoft Windows operating system of the most current version at the time of purchase. j. Touch screen HMI / GUI software and necessary license and software key. k. Elo 3220L 32” flat panel LCD touch screen (or equal; confirm with owner and architect prior

to purchase, assume larger size for bidding purposes). 2.03 ETHERNET COMMUNICATIONS

A. Provide a 10/100 Mbps Base T Ethernet system (IEEE 802.3u), for communication between Touch screen Workstations, Programmable Logic Controllers, and other connectable devices to be installed under this section of work.

B. The 10/100 Mbps Base T Ethernet hubs and switches shall be as manufactured by Cisco Systems,

MOXA, or approved equal. Provide the quantity of nodes as required to suit the equipment to be connected.

C. Ethernet cabling shall be Category 5e. End-of-line terminations at PLC’s shall be to eight-pin (RJ-45

style) connectors.

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D. All Ethernet cabling between buildings shall be fiber optic, with a minimum of 8 strands. Provide all necessary transmitters/receivers for fiber optic cable.

2.04 PROGRAMMABLE LOGIC CONTOROLLERS

A. The system described herein represents a minimum quality. Equivalent systems based on IP are acceptable as long as same functionality is provided.

B. Provide a distributed installation of Programmable Logic Controllers to interface the Touch screen

Workstations with the field wire interface equipment that is hardwired to the end-of-line devices that are to be controlled and / or monitored.

C. Programmable Logic Controllers shall be located in Electronic Equipment Rooms, as shown on the

drawings, and shall be installed inside the same metal control cabinets as the electronic control relays.

D. Except as otherwise specified, herein, or in the General Conditions, the equipment and materials of

this Section shall be products of the following manufacturers, subject to compliance with specification requirements and provided each manufacturer meets all requirements of the Quality Assurance Section of this specification. Non-industrial type PLC Control Units shall not be acceptable. PLC Control Units must be nonproprietary and have a minimum of two (2) authorized dealers in each State, and a minimum of two hundred (200) authorized dealers nationwide, and a minimum of five hundred (500) authorized worldwide.

E. The processor shall contain all programs necessary to control the system. The program shall be

stored in a non-volatile memory unit. The processor shall communicate with all I/O points directly across the PLC back plane, or communicate to remote I/O via Ethernet network, RS422 or RS485.

F. All microprocessor-based equipment supplied shall be certified by the manufacturer to meet or

exceed the following environmental operating specifications:

Ambient Temperature - Operational 0 to 60 C. Storage 40 to +80 C. Ambient Humidity - 50 to 95%, RH non-condensing

G. All local and remote I/O points must be addressed directly from the processor. Systems requiring

data/communication hardwired cable to each I/O card will not be acceptable. All I/O cards must be interchangeable without requiring addressing or re-addressing to be moved from one card slot to another card slot. I/O cards requiring dipswitch addressing will not be acceptable.

H. All I/O devices shall be equipped with system self-diagnostic capabilities.

I. The processor shall, on a regular time interval not to exceed three seconds, perform a diagnostic

test of all I/O points. This diagnostic test shall be a software test requiring all I/O points to report back to the processor. This test will annunciate any communication or I/O card failure.

J. Programming of the programmable controller shall be accomplished utilizing a high level language

that utilizes ladder logic for all programs. The software shall be capable of converting all functions associated with locking, Lighting, CCTV and intercom control features and a completely automated method.

K. Programmable Logic Controllers manufactured by the following manufacturers shall be acceptable:

Allen Bradley Omron GE Fanuc Siemens

2.05 PROGRAMMING AND HMI SOFTWARE

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A. Provide programming and HMI / GUI software to accomplish all functions as described herein and as

shown on the plans.

B. The software will be programmed and tailored to the specified functions and features described herein and shown on the drawings. The touch screen GUI software shall have the ability to configure changes made to the program and make the required adjustments to the affected screens and templates.

C. The software will convey a Graphic floor plan for all areas that require display on the LCD displays.

The software will utilize the maximum resolution and colors of the display to enhance and simplify the displayed control and status information. Fast orientation and ergonomics will be the goal of all system displays.

D. The software will provide log-on security password protection for all TCS’s. There shall be a

minimum of one thousand (1000) user levels. The software will provide a database for users. This database shall support a minimum of Two Thousand (2,000) users.

E. The system software shall automatically log system activity to an event log. This event log shall have

the ability to run several basic reports and custom configured reports based upon selected information.

F. All software licenses shall be transferred to the Owner at completion of the project. This shall

include but not be limited to all original installation disks, software manuals, equipment manuals, etc.; all project specific application software shall be transferred at the end of warranty period.

G. All ladder logic, HMI files, and any other custom developed software or configuration files shall be

delivered on CD’s to the owner at the project closeout.

H. Programming and HMI development software provided by the following manufacturers is acceptable:

Wonderware Entivity GE Rockwell Automation Siemens Omron

2.06 FIELD DEVICE INTERFACE

A. The device control relay shall do the actual switching of the power to the locks, lights, etc. All relays shall be NEMA or IEC rated, and mounted in the cabinet containing the PLC I/O cards. The cabinets shall be mounted in the I.T. closet. IP based systems may utilize the racks in the I.T. room to house equipment.

B. The device control relays shall be electromechanical type that are rated for at least 50% more

current capacity than required for any given control function, but in no case less than 10 amps. The relays shall be operated at an input voltage of 24VDC, and the output shall be capable of switching any voltage up to 140 VAC, at the rated output current. Solid State or optically isolated solid-state relays are not acceptable. The following requirements must be met for all locking control relays:

a. Input indication must be given at the relay location. b. Each relay is to be fused in such a way as to meet National Electric Code distribution

requirements and to protect the relay and other circuitry from a short circuit failure at the lock. c. Each relay shall be socketed to facilitate easy field replacement. d. All relays and terminations are to be labeled clearly to show all field terminations. e. All relay sockets and terminal strips shall be DIN rail mounted

C. All control wiring in the relay cabinet shall be grouped and laced with nylon tie straps with a maximum spacing of one inch. Straps will be placed within 1/2" on each side of all bundle breakouts.

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Wiring will be supported at intervals not exceeding four inches and labeled at both ends.

D. Field wires shall terminate to din rail mounted terminal strips. Each terminal shall be clearly labeled.

E. Lighting Control Relay Construction - The lighting control and TV receptacle relays shall provide a relay which can be inserted into a metal partition providing for partition separation of the high voltage circuit to be controlled and the controlling low voltage wiring. The lighting control and TV receptacle relay shall be a latching mechanical contact rated at a minimum of 20 amps. The following requirements must be met for all lighting control and TV receptacle relays:

a. The relay must provide an auxiliary status contact that will be monitored by the control system

for indication on the control panel. The control panel shall indicate actual relay status. b. Each relay shall be rated with a minimum of a 20-amp contact and shall be rated for the line

voltage controlled. c. The lighting control and TV receptacle relay shall be U.L. recognized. d. The relay mounting shall be constructed in such a way that a metal partition shall separate the

high voltage contacts and the low voltage switching circuitry.

F. The wiring that extends from the electronic control relay terminal strips to the locks, lights, etc., shall be Class 1,2 or 3 as defined in Article 725 of the National Electric Code. All conductors shall be a minimum number 14 THHN or THWN, 600 volt rated, and shall be installed in raceways and equipment enclosures with other conductors, within limitations defined by Article 725 of the National Electric Code.

G. All control wiring systems shall use solid or stranded copper conductors. Stranded conductors shall

be acceptable only where all terminations can be made to lugs or captive clamp type terminals. Where stranded conductors are used, all terminations shall be made with crimp type lugs, correctly sized for termination, and applied to conductor with crimping tool intended for use with the lug used. (Security Contractor shall determine Number of wires per lock or device, nominally six.)

H. All control wiring in the relay cabinet shall be grouped and laced with nylon tie straps with a

maximum spacing of 1". Straps shall be placed within 1/2" of each side of all bundle breakouts. Wiring will be supported at intervals not exceeding 4" and labeled at both ends.

2.07 STORAGE SERVER

A. The Storage server(s) shall be rack mount servers meeting the following minimum requirements and the requirements of the equipment and software used:

Intel Xeon processor of latest make and socket type 16 Gb ECC Memory Dual gigabit network adapters Redundant Power supply CD/DVD burner SATA hard drives as required to provide 1TB (one terabyte) of storage for every 16 stations.

2.08 SPARE PARTS A. Contractor shall provide the following minimum spare parts: Provide minimum of twenty (20) spare fuses of each type utilized. Provide 1 spare PLC CPU pre loaded with the program. Provide 2 spare PLC input modules of each type used. Provide 2 spare PLC output modules of each type used. Provide 1 spare PLC backplane of each type used. Provide 1 spare power supply of each type used. Provide 15 spare of each type of relay used. Provide (INTERCOM PARTS HERE) Provide (CCTV PARTS HERE)

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Provide (CARD ACCESS PARTS HERE) Provide 1 complete video visitation inmate station assembly Provide 1 complete video visitation visitor station assembly (not including furniture) 2.09 UPS SYSTEMS

A. Provide a UPS for each Touch screen control station to protect the computer, and Touch screen for a minimum of thirty (30) minutes under “worst case” conditions in the event of a utility power failure Provide a 120VAC UPS System for each equipment panel, which will provide continuous logic and annunciation power for a minimum of thirty (30) minutes backup under “worst case” conditions in the event of a utility power failure. The UPS is for logic and annunciation power only; it shall not operate locks or other field devices. Provide UPS backup for all systems under this section of the Specifications.

B. All UPS systems must have a connected equipment warranty that covers at least 150% of the value

of all connected equipment. All original warranty documentation for each UPS shall be turned over to the owner along with the operation and maintenance manuals.

C. UPS systems manufactured by Liebert, and APC shall be acceptable.

2.10 LAPTOP COMPUTER

A. Provide a Laptop Computer along with all necessary hardware, software, and cabling, required to program and troubleshoot the PLC system. The Laptop Computer shall meet, as a minimum, the following specifications and that of the equipment and software used:

1. Intel Core i5, 2.8 GHz Processor 2. 17” Monitor Screen 3. 16 Gb of RAM 4. 1 Tb hard drive 5. DVD ROM Drive 6. One Battery Sized for 5 hours of Operation 7. One cord and charger with which to operate the computer and simultaneously charge the

battery. 8. One Microsoft Mouse

2.11 SURGE PROTECTION

A. Provide surge protection in accordance with the TVSS for Electrical Power Systems and the TVSS for Communications and Auxiliary Systems Specifications on all components entering the building at the point of entrance and at the point of termination of each such cable inside the building.

2.12 INTERCOMMUNICATION (INTERCOM) SYSTEM

A. Master Station: The intercom master station shall be flush mounted on the drawings in the Main

Control Panel. The master station shall be provided with a hexadecimal keypad, talk/listen switch, an automatic answer button, scroll button, a systems busy tone, a call waiting annunciation, and a multi-digital readout. The keypad shall provide for dialing all individual staff stations. The readout shall display the station number with which a link has been established through use of the keypad. A speaker/microphone shall be mounted in the control panel faceplate, and a microphone with a push-to-talk switch shall be mounted on or near the control panel.

B. Staff Stations in Areas Accessible to Inmates: Staff stations in areas accessible to inmates shall

meet the following minimum specifications:

1. Speakers shall be 2 ½” nominal. 2. Speaker impedance shall be 8 Ohms. An impedance-matching 25 volt transformer shall be

provided. 3. Speakers shall have a 2.5 oz. ceramic magnet.

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4. Stations shall have a momentary-action, normally-open call-in switch. 5. Staff stations shall have an 11 gauge stainless steel face plate . 6. Staff stations shall mount flush in a two-gang box. 7. Staff stations shall be of waterproof and puncture-resistant construction.

Staff stations shall be Quam CIS4 or approved equal.

C. Staff Stations in Areas not Accessible to Inmates shall be similar to those listed above, but may have faceplates made of materials other than 11 gauge stainless steel. Where placed in outdoor areas, staff stations shall be of weatherproof construction.

D. Telephone Style Staff Stations shall consist of Handset /Hookswitch Assemblies. Each

handset/hookswitch unit shall fit on a 2-gang box. The handset shall be high impact thermoplastic. The hanger shall be chrome-plated steel. The mounting plate shall be type 304 brushed stainless steel. The handset shall be connected to the mounting plate with armored cable. Telephone Style Staff Stations shall take priority over the other staff stations in the system and shall solely be used to ring the Telephone Style Intercom Master Station. It shall be considered acceptable to submit a completely separate intercom system for the telephone style handsets and master station provided that a complete system is furnished including all power connections.

E. Telephone Style Intercom Master Station: The Telephone Style Master Station shall ring when one

of the telephone style staff stations is activated. It shall display the unit number of the staff station and shall be used to communicate with the telephone style staff station.

F. Indoor Speakers: Intercom speakers mounted indoors shall be 8” molded fiber cone loudspeakers

with a propagator mounted directly to the voice coil assembly to extend high frequency response. The loudspeaker shall use a 4.8 ounce ceramic magnet. Flux density shall be 9500 Gauss minimum. Frequency response of the speaker shall be 65 Hz to 17 KHz with a power handling capability of ten watts RMS referenced to EIA Standard 426A. The voice coil diameter shall be 0.75” and shall have a nominal impedance of eight ohms. Axial sensitivity of the speaker shall be not less than 98dB at a distance of one meter with one watt of source power applied. An integral 25V constant voltage transformer mounted to the loudspeaker basket shall be included. The transformer shall have primary taps at 1/4W, 1/2W, 1W, 2W, 4W, and 8W. Speakers shall be Quam 8C5PAX with transformer TCH25 or approved equal.

1) Enclosures for Non-inmate Areas. A zinc-treated steel baffle with white powder epoxy finish and

speaker backbox shall be used. Use surface-mount boxes and covers only where there is no lay-in ceiling. Where speakers are installed in ceilings, the grill shall completely cover the hole in the ceiling.

2) Enclosures for Wall-mount Speakers in Areas Accessible to Inmates: Speakers shall be enclosed in 0.06 inch cold-rolled steel enclosures with a baked white powder epoxy finish. They shall contain a correctional-grade 14 gauge baffle with baked white powder epoxy finish mounted to the face of the enclosure with tamperproof hardware. The enclosure shall be a Quam SE2WVP with a Quam BS89VP baffle or approved equal.

3) Enclosures for Ceiling-mount Speakers in Areas Accessible to Inmates: Speakers shall be enclosed in 0.06 inch cold-rooled steel enclosures with a baked white powder epoxy finish. They shall contain a correctional-grade 14 gauge baffle with a baked white powder epoxy finish mounted to the face of the enclosure with tamperproof hardware. The enclosure shall be a Quam SE1WVP with a Quam BS89VP baffle or approved equal.

G. Exterior Speakers: Speakers mounted outside shall be weatherproof 15W speakers with a 25V

impedance matching transformer and a switch to set the power at 0.46W, 0.94W, 1.8W, 7.5W, or 15W. They shall be Bogen SP15-8A or approved equal.

H. The speaker/microphone in the control panel shall be a 4” nominal water-resistant unit with an impedance of 8 ohms and a microphone sensitivity of 26 dBm.

I. Cables shall be sized properly for the equipment served and to compensate for voltage drop in long

cable runs. Minimum conductor sizes and specifications are listed as follows:

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1) Speaker Cable: #22 AWG twisted, shielded pair with overall PVC jacket. It shall be West Penn # 292 or approved equal.

2) Staff Station Cable: Two pairs of #22 AWG twisted pair conductors – one shielded and one

unshielded – West Penn #357 or approved equal.

3) Furnish additional cables as required to interconnect intercom system components for optimum system performance.

2.13 SOUND THRESHOLD ALARM SYSTEM:

A. Provide a complete and operable Sound Threshold Alarm System to monitor and detect unusual sound levels in cells for possible disturbances or pleas for help.

B. The Sound Threshold Alarm System shall be an all solid-state device system connected to the intercom system. It shall not require modification of the intercom equipment for its installation.

C. The operation of the system shall be such that when the intercom channel is in the normal state, noise or sound levels louder than normal (as determined by adjusting the sensitivity control during initial installation using a “Pink” noise source) shall cause the graphic control panel to sound an audible alarm and the INDICATOR LIGHT on the control panel associated with the respective staff station shall illuminate. The audible alarm shall be muted when the alarm is acknowledged and reset when the intercom system is restored to standby. The INDICATOR LIGHT shall be continuously illuminated until the intercom is restored to standby.

D. When the operator selects a channel, any alarm received for that channel shall be reset and the

zone or area shall be monitored or talked to via the intercom master.

E. When the day/night switch is in the “day” position, all areas or zones shall be disconnected from the alarm system and abnormal sound levels shall not be annunciated. When in the “night” position, abnormal sound levels shall be annunciated.

F. All other intercom functions shall operate in a normal fashion and shall not be hindered by the alarm

system.

G. All cells shall be monitored at night from central control.

2.14 WATCHTOUR SYSTEM:

A. Provide a complete and operable watchtour system consisting of key-operated switches and a system printer connected to the main system processor to record the start, stop, and intermediate points in the inspection rounds of the guards.

B. Each time a key-switch is operated, the printer shall log the year, month, date, hour, minute, second, and the location of the key-switch operated. The unit shall log the watchtour zone, and the exact times for the watchtour start, the operation at each watchtour station, and the watchtour completion. The system printer shall use roll type paper.

C. The system shall be able to store signals and receive signals simultaneously. Key switches shall be

Folger Adam Model 1100 with factory-supplied cylinders and one green signal light. The unit shall have its own power supply operating at 120Vac. Provide power equipment and circuitry as required for proper operation of the system.

PART 3 – EXECUTION

3.01 INSTALLATION

A. The entire system shall be installed in a workmanlike manner, in accordance with approved

manufacturer's instructions. All wiring shall be of the type and quantity recommended by the controls

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manufacturer, and hardware manufacturer, and approved by the local authority having jurisdiction. It shall be installed in dedicated conduit throughout. Conductors routed to the individual lockset shall be continuous from the relay cabinet to the lockset; it is not permitted to use a common wire either neutral or phase wire to a chase to power multiple locks. Each lockset must work independent from the other locksets. All home runs from field devices shall be continuous; there shall be no splices in wiring between the control equipment and the door locks, position switches, gates, etc.

B. Wiring that extends from the electronic control relay terminal strips to the locks, lights, etc. shall be

class 1, 2, or 3 as defined by Article 725 of the National Electric Code. All conductors to locks, doors, position switches, or gates shall be stranded wire and shall be a minimum number 14 THHN or THWN, 600 volt rated, and shall be installed in raceways and equipment enclosures with other conductors, within limitations defined by Article 725 of the National Electric Code.

C. The Contractor shall comply with the current edition of the following codes and standards as

applicable:

1. National Electrical Code (NEC) 2. National Fire Alarm Codes (NFAC) 3. Uniform Building Code (UBC) 4. All State, County, and local codes and ordinances 5. American National Standards Institute (ANSI) 6. American Society for Testing and Materials (ASTM) 7. Electronics Industry Association (EIA) 8. Federal Communications Commission (FCC) 9. National Electrical Manufacturers Association (NEMA) 10. National Fire Protection Association (NFPA) 11. Occupational Safety Health Act (OSHA) 12. Underwriter’s Laboratories (UL)

D. All wiring shall be clearly identified and labeled according to the device it controls. Where possible, use

architectural door numbers to identify groups of wires.

E. All penetrations of floor slabs and fire walls shall be fire stopped in accordance with local fire codes. All wiring shall be color coded throughout, to National Electrical Code standards.

F. Maintain 3-foot working clearances on each side of equipment or equipment racks where access is

required to inspect, service or adjust.

G. All equipment cabinets, boxes, enclosures or racks shall be clearly labeled and identified. Use identifiers and abbreviations defined in the Drawings wherever possible. Use plain designation for labeling, unless indicated otherwise.

H. Check equipment against available mounting space indicated on the drawings. Coordinate location of

equipment with other devices to minimize interference. Any conflicts or clearance problems shall be brought to the attention of the architect.

I. Install all equipment in accordance with the manufacturer’s recommendations, and accepted shop

drawings.

J. Install all equipment in compliance with NEC requirements, NECA’s “Standard of Installation” and recognized industry practices.

3.02 GROUNDING

A. Furnish and install a #6 AWG bare ground from the grounding lug in the equipment cabinet(s) to the

building ground system.

B. Connect the ground in each set of field wires to the ground terminal on the control module for that field device.

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3.03 FIELD QUALITY CONTROL/ TESTING

A. The system shall be installed and fully tested under the supervision of a technician, trained and

certified by the manufacturer as a master technician for the said system. The system shall be demonstrated to perform all of the functions shown on the plans and as specified herein.

3.04 TRAINING

A. The contractor shall provide on site training for a period of up to sixteen (16) hours [four (4) four (4)

hour sessions], during normal business hours, to instruct the Owner's designated personnel on the operation and maintenance of the entire system.

3.05 PERMITS AND APPROVALS

A. Permits necessary for installation of the work shall be obtained prior to the commencement of work.

All permit costs and inspections fees shall be included as part of the required work.

B. All applicable portions of the National Electrical Code shall be implicitly followed, in particular with regard to material type and quality, circuitry extensions from and connections to outlet and junction boxes, panel boards and similar appurtenances.

3.06 TESTING

A. The Contractor shall make all arrangements and pay all fees in connection with the testing of the

Touch screen Control System. All system devices shall be tested for their correct operation. All tests carried out shall meet the requirement of the local authorities having jurisdiction.

3.07 WARRANTY

A. The Contractor shall guarantee the system equipment to the Owner for a period of one (1) year from

the date of final acceptance of the system.

B. For a period of one year from the date of final acceptance, the system shall be under full warranty (at no cost to the owner for materials or labor). Service technicians and replacement components for the system specified shall be provide by service representatives. During the one year warranty period replacement components and labor shall be readily available during normal business hours, Monday through Friday excluding holidays. Emergency service provided at times other than as stipulated above, shall be available at a reasonable cost to the owner.

C. Upon completion of the installation of the Touch screen Control System equipment, the Contractor

shall provide to the architect a signed written statement, substantially in form as follows:

"The undersigned, having been engaged as the Locking control system installer on the Forrest County Detention Center, MS, confirms that the Touch screen control system was installed in accordance with the wiring diagrams, instructions and directions provided by the manufacturer and the manufacturer has provided an acknowledgement of proper installation and operation; a copy of which is herein attached."

3.08 QUALITY ASSURANCE

A. All materials and labor specified under this Specification Section, shall be furnished by a single pre-

qualified SEC, (security electronics contractor), who shall assume responsibility for the detailing, coordinating, supplying, installing, programming, performance and warranty of this work, in accordance with this specification section.

END OF SECTION

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SECTION 27 0910 CLOSED CIRCUIT TV

PART 1 GENERAL 1.00 SUMMARY OF WORK

A. Courthouse: Provide a complete and fully operational CCTV system complete with all licensing and accessories to result in a fully functional system. The system shall tie into the jail facility to allow for remote monitoring of the courthouse from the jail central control room. The contractor shall provide and install all hardware and software, including monitors and computers, to result in a fully functional system. Not all items are explicitly called out in the drawings or specifications.

B. Jail Expansion: Provide a complete and fully operational CCTV system complete with all licensing and accessories to result in a fully functional system. The system shall tie into the courthouse to allow for remote monitoring of the courthouse from the jail central control room. The contractor shall provide and install all hardware and software, including monitors and computers, to result in a fully functional system. Not all items are explicitly called out in the drawings or specifications.

1.01 SECTION INCLUDES A. Video surveillance system requirements. B. Video recording and viewing equipment. C. Cameras. D. Accessories.

1.02 RELATED REQUIREMENTS A. Section 07 8400 - Firestopping. B. Section 26 0526 - Grounding and Bonding for Electrical Systems. C. Section 26 0533 - Raceways. D. Section 26 0553 - Electrical Identification. E. Section 27 0900 - Electronic Security System.

1.03 REFERENCE STANDARDS A. 47 CFR 15 - Radio Frequency Devices; current edition. B. NECA 1 - Standard for Good Workmanship in Electrical Construction; 2015. C. NECA 303 - Standard for Installing Closed-Circuit Television (CCTV) Systems; 2005. D. NFPA 70 - National Electrical Code; Most Recent Edition Adopted by Authority Having

Jurisdiction, Including All Applicable Amendments and Supplements. 1.04 ADMINISTRATIVE REQUIREMENTS

A. Coordination: 1. Coordinate the placement of cameras with structural members, ductwork, piping,

equipment, luminaires, diffusers, fire suppression system components, and other potential conflicts installed under other sections or by others.

2. Coordinate the work with other installers to provide power for cameras and equipment at required locations.

3. Notify Edmonds Engineering, Inc. of any conflicts with or deviations from the contract documents. Obtain direction before proceeding with work.

B. Preinstallation Meetings: 1. Conduct meeting with facility representative to review camera and equipment locations

and camera field of view objectives.

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1.05 SUBMITTALS A. See Section 01 3000 - Administrative Requirements, for submittal procedures. B. Shop Drawings: Include plan views indicating locations of system components and proposed

size, type, and routing of conduits and/or cables. Include elevations and details of proposed equipment arrangements. Include system interconnection schematic diagrams. Include requirements for interface with other systems.

C. Product Data: Provide manufacturer's standard catalog pages and data sheets for each system component. Include ratings, configurations, standard wiring diagrams, dimensions, finishes, service condition requirements, and installed features.

D. Design Data: 1. Standby battery/UPS calculations. 2. Video storage capacity calculations.

E. Certify that proposed system design and components meet or exceed specified requirements. F. Evidence of qualifications for installer. G. Evidence of qualifications for maintenance contractor (if different entity from installer). H. Manufacturer’s detailed field testing procedures. I. Project Record Documents: Record actual locations of system components and installed wiring

arrangements and routing. J. Operation and Maintenance Data: Include detailed information on system operation,

equipment programming and setup, replacement parts, and recommended maintenance procedures and intervals. 1. Include contact information for entity that will be providing contract maintenance and

trouble call-back service. K. Warranty: Submit sample of manufacturer's warranty and documentation of final executed

warranty completed in Owner's name and registered with manufacturer. L. Maintenance contracts. M. Software: One copy of software not resident in read-only memory.

1.06 QUALITY ASSURANCE A. Comply with the following:

1. NFPA 70. 2. Applicable TIA/EIA standards.

B. Maintain at the project site a copy of each referenced document that prescribes execution requirements.

C. Installer Qualifications: Company specializing in performing the work of this section with minimum three years documented experience with video surveillance systems of similar size, type, and complexity and providing contract maintenance service as a regular part of their business; authorized manufacturer's representative. 1. Contract maintenance office located within 100 miles of project site.

D. Maintenance Contractor Qualifications: Same entity as installer. E. Product Listing Organization Qualifications: An organization recognized by OSHA as a

Nationally Recognized Testing Laboratory (NRTL) and acceptable to authorities having jurisdiction.

1.07 DELIVERY, STORAGE, AND HANDLING A. Receive, inspect, handle, and store products in accordance with manufacturer's instructions

and NECA 303. B. Store products in manufacturer's unopened packaging, keep dry and protect from damage until

ready for installation.

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1.08 FIELD CONDITIONS A. Maintain field conditions within manufacturer's required service conditions during and after

installation. 1.09 WARRANTY

A. See Section 01 7800 - Closeout Submittals, for additional warranty requirements. B. Provide minimum one year manufacturer warranty covering repair or replacement due to

defective materials or workmanship. PART 2 PRODUCTS 2.01 MANUFACTURERS

A. Video Recording and Viewing Equipment - Acceptable Manufacturers: 1. Bosch Security Systems: . 2. Honeywell International, Inc: . 3. Pelco, a brand of Schneider Electric: .

B. Cameras - Acceptable Manufacturers: 1. Bosch Security Systems: 2. Honeywell International, Inc: . 3. Pelco, a brand of Schneider Electric: .

C. Substitutions: See Section 01 6000 - Product Requirements. D. Products other than basis of design are subject to compliance with specified requirements and

prior approval of Engineer. By using products other than basis of design, Contractor accepts responsibility for costs associated with any necessary modifications to related work, including any design fees.

E. Source Limitations: Where possible, furnish system components and accessories produced by a single manufacturer and obtained from a single supplier.

2.02 VIDEO SURVEILLANCE SYSTEM A. Provide new video surveillance system consisting of all required equipment, conduit, boxes,

wiring, connectors, hardware, supports, accessories, software, system programming, etc. as necessary for a complete operating system that provides the functional intent indicated.

B. System Description: IP system with connection to network (IP) cameras. 1. Video Storage Capacity: 1TB per 8 cameras. 2. System Battery Backup: Provide batteries/uninterruptible power supplies (UPS) as

required. 3. Surge Protection:

a. Provide surge protection for exterior cameras . b. Provide equipment power surge protection where electrical distribution system surge

protection is not provided. C. Cameras Required:

1. See article "CAMERAS" below for product descriptions. D. Video Recording and Viewing Equipment Required:

1. See article "VIDEO RECORDING AND VIEWING EQUIPMENT" below for product description