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<br /> I. GENERAL CONTRACTOR'S RESPONSIBILITIES: V. PHILIPS TELETROL SPECIAL INSTRUCTIONS:
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<br /> a. Read Philips Teletrol (TSI) / Dollar Tree (DT) Documentation Package. vJ L
<br /> b. Review all DT drawings. Demand Controlled Ventilation (DCV) Setup: X4/1
<br /> c. Contractor will contact the store manager immediately upon arriving onsite to:
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<br /> i. Confirm permission to begin EMS installation a. The Mechanical Contractor and Air Balancer will need to use this procedure to adjust the: UJ —
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<br /> iiMinimum Outside Air (OA) damper position C0. Offer a brief overview of the installation process z
<br /> iii. Serve as the TSI point of contact for the manager and to help resolve all issues or questions that arise during the installation process.
<br /> DCV Maximum damper position
<br /> d. Confirm TSI Survey Form is completed and EMAILED to TSI National Account Team at Teletrol.surveys(cDphilips.com or FAXED to (855) 224-0879. ■ DCV Setpoint potentiometers
<br /> e. Schedule remote EMS commissioning 24 hours prior to the requested commissioning date. Contact Philips Teletrol Inc. at (615) 495-1963 and submit survey for scheduling remote EMS
<br /> b. This checkout procedure is intended for use with the following pieces of required hardware and test equipment:
<br /> commissioning. • Carrier HVAC unit, with W7212 Economizer Controller (HH63AW001) -2
<br /> + Five jumper wires J E
<br /> II. ELECTRICAL RESPONSIBILITIES: 0
<br /> ■ 9 volt battery Q
<br /> Power to all EMS equipment and devices must be OFF while terminations are made. + Multimeter U (�
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<br /> a. Provide all labor and installation material, as required, for a complete and operational EMS for this DT store location.
<br /> c. ThiSmall flat blade screwdriver (Ds test procedure verifies that the HVAC unit OA damper will mod ulate between the reduced and standard minimum OA CFM quantity based on the 0-10 vdc signal from the CO2 sensor. W Mb. Receive and store all TSI material in a dry and secure place until the EMS installation is completed. d. Whenever the Space CO2 level is below Setpoint (1000 ppm) the HVAC system will maintain the minimum OA CFM. When the Space CO2 level exceeds the CO2 Setpoint the HVAC system J
<br /> c. The EMS equipment will be supplied by TSI and installed by an approved TSI contractor. will increase to the maximum QA CFM until the Space CO2 level recovers. UJ N
<br /> d. Review the entire set of plans, perform a job site survey and inventory the TSI equipment to ensure the proper equipment has been ordered and received for a complete and operational TSI Note: Refer to mechanical drawings for minimum and maximum QA CFM values.
<br /> EMS.
<br /> e. If any material is missing or additional equipment is required, immediately call TSI at (615) 495-1963 to request an order. e. Step #1 - Preliminary Setup and Checkout of the Carrier Economizer Controller CO2/DCV system operation
<br /> f. Approved Contractor shall verify number of controlled lighting circuits against the design, report discrepancies, which cannot be resolved in the field, to the TSI National Account Support Team i. Disconnect power to the rooftop unit.
<br /> at (615) 495-1963 and wait for resolution instructions. ii. Locate the Carrier Economizer Controller(HH63AW001) and complete the following steps: 0
<br /> g. Coordinate the EMS installation with the Mechanical Contractor to avoid any interference that may delay progress during construction. 1. If the OA temperature is below 55° F, install a jumper between terminal T &T1. O 00
<br /> h. Perform all work in accordance with all National, State and Local Codes for this project. 2. Set the Minimum Position and DCV Setpoint potentiometers fully CCW (counterclockwise). O
<br /> i. All EMS cables are to be installed per National and Local Codes. It is the Electrical Contractor's responsibility to determine if National and Local Codes permit Class 2 cables to be installed 3. Set the DCV Maximum Position potentiometer fully CW (clockwise).
<br /> exposed within the building structure or if a full conduit system is required. 4. Set the Enthalpy potentiometer to D.
<br /> j. EMT connectors and bushings are to be installed at the top of every conduit sleeve and threaded connector to protect EMS cables from abrasions. iii. Prior to removing any existing CO2 sensor wires from terminals AQ & AQ1, record the following: � C5,
<br /> k. All cables are to be clearly and distinctly labeled within one foot of both ends. 1. Terminal voltage.
<br /> I. Furnish and install all required conduit, boxes, wire ways, fittings, straps, hangers and wiring for a complete and operational EMS as required. 2. Wire color code
<br /> m. Furnish and install a dedicated 120 VAC circuit with breaker lock for the EMS Panel. 3. Wiring polarity o
<br /> i. Label breaker: DO NOT TURN OFF / EMS
<br /> Note: The voltage should be between 2- 5 vdc. if the measured voltage is outside that range, troubleshoot for wiring or sensor problems. ��F-jq �
<br /> iii. Confirm wiring is completed as per this documentation package before applying power. Improper wiring will cause damage to equipment. F01
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<br /> iv. Remove wires located on terminals AQ &AQ1. 1 10 n
<br /> n. Mount the EMS Panel adjacent to the electrical panels. v. Apply ower to the HVAC unit. Allow approximately 3 minutes for the HVAC unit to complete its start-up process. The dampers should be closed and the DCV LED should be off.
<br /> o. Install an Ethernet cable run from the eSC RJ-45 jack located in the EMS Panel to the network switch specified by the DT networking team. PP y P pp y P p p P
<br /> vi, Return to the Carrier Economizer Controller (HH63AW001) and complete the following steps:
<br /> p. Install and terminate the TSI BACnet communication trunk in a daisy chain fashion from the EMS Panel to each of the Thermostat Controls. (see this documentation package for 1. Install a jumper wire from the AQ1 terminal to the 9 volt battery (negative) female post.
<br /> requirements)
<br /> q. When applicable, mount the Auxiliary 1/0 Panel adjacent to the EMS Panel and ensure both panels are connected to the same Earth Ground. 2. Install a jumper wire from the AQ terminal to the 9 volt battery (positive) male post. The LED for DCV should turn on and the damper should modulate to 95% open.
<br /> r. Mount and terminate the Outdoor Sensor Assembly (OSA) on the north/northeast side of the building. When installing, make sure enclosure is:
<br /> 3. Turn the DCV setpoint potentiometer CW until the DCV LED turns off. The damper should drive to the reduce minimum QA CFM position.
<br /> i. Weather-proofed f. Step#2 - Air Balancer Setup of the Carrier Economizer Controller CO2/DCV system, Min Pas, DCV Setpoint, and DCV Max potentiometers. With test conditions setup as defined in Items
<br /> above, complete the fallowing: W >=
<br /> ii. Mounted with the white PVC sensor pointed downward i. Adjust the DCV Setpoint potentiometer to the 11 o'clock position, this equates to a CO2 level of approximately 1000 ppm. J
<br /> iii. Not mounted on any removable access door or HVAC Unit. UJ
<br /> iv. Positioned to allow the Outdoor Light Sensor exposure to full ambient daylight but is not shadowed or exposed to any artificial illumination. iii. Verify that the jumper wire from AQ terminal to the (positive) male post of the 9 volt battery is disconnected from the battery male past. The DCV LED should be off. LU
<br /> iii. Adjust the Min Pos pot to 25% of the minimum OA CFM value as noted on the mechanical equipment schedule for that HVAC unit. Z
<br /> s. When applicable, mount and terminate the CO2 Sensor as per the location specified by the DT drawings and this documentation package. iv. Connect the jumper wire from the AQ terminal to the (positive) male post of the 9 volt battery. The DCV LED should be on.
<br /> It. Mount and terminate the Override Button assembly as per the location specified by the DT drawings and this documentation package. v. Adjust the DCV Max pot to 100% of the minimum QA CFM value as noted on the mechanical equipment schedule for that rooftop unit. FM
<br /> u. Mount and terminate the Indoor Ambient Light Sensor(s) as per the location specified by the DT drawings and the Special Instructions in this documentation package. vi. Use a marker to permanently indicate the proper settings for the Min Pos, DCV Setpoint, and DCV Max potentiometers. UU 0
<br /> v. Install and wire coil and load sides of lighting contactors for designated lighting loads as required by DT and this documentation package g. Disconnect power to the HVAC unit, remove all five jumper wires and reinstall the CO2 sensor wires to terminals AQ &AQ1 as originally configured.
<br /> w. Furnish and install a 3-pole, 20 amp breaker/disconnect at the Main Distribution Panel (MDP) for each Phase Loss Power Monitor. h. Apply power to the HVAC unit and verify that the HVAC unit completes its start-up process. 0 UJ
<br /> x. Terminate wiring as specified in this documentation package.
<br /> i. Label each breaker/disconnect: DO NOT TURN OFF / PHASE FAILURE
<br /> iii. Confirm wiring is completed as per this documentation package before applying power. Improper wiring will cause damage to equipment. Indoor Light Sensor OLS) Installation:
<br /> y. Verify Input Jumpers are correctly set. For this install: Z
<br /> i. Input jumpers 1 – 4, 6 and 8 should be configured as Thermistor Inputs a. Each Indoor Light Sensor(s) shall be mounted with a 2x4 electrical box provided by the Electrical Contractor.
<br /> O O T b. Each Indoor Light Sensor(s) shall be mounted with the Downrod Assembly provided by TSI. UJ
<br /> c. Each Indoor Light Sensor(s) shall be not mounted any higher than TAFF.
<br /> ii. Input jumpers 5 and 7 should be configured as Voltage Inputs d. Each Indoor Light Sensor(s) shall be mounted so that the sensor eye is facing the front of the store.
<br /> CE V e. A Single 18/4/Shielded Plenum Cable or Two 18/2/Shielded Plenum Cables shall be used for connection of each Indoor Light Sensor(s) to the EMS Panel or Auxiliary 1/0 Panel.
<br /> z. Provide a technician, on site, for an approximate 2-hour remote telephone checkout with TSI. f. Refer to the electrical plans and DT Drawings for correct sensor placement. LU
<br /> aa. Coordinate with the Mechanical Contractor to verify HVAC control during the TSI remote telephone checkout.
<br /> bb. Upon completion of the installation and prior to scheduling the Remote Commissioning Checkout, the Electrical Contractor will:
<br /> i. Fill in the forms below and fax then to TSI at (855) 224-0879. UJ
<br /> iii. Confirm the Mechanical Contractor will be present during the TSI Remote Commissioning Checkout. DEVICE LEGEND CABLE LEGEND
<br /> iii. Contact TSI to schedule a remote checkout at (615) 495-1963. SYMBOL DESCRIPTION
<br /> KEY SIZE TYPE MFG. MFG. PART #
<br /> III. MECHANICAL RESPONSIBILITIES: SSC HVAC UNIT CONTROLLER (SIMPLESTAT) 10 18/2 SHIELDED, WINDY # 002320-S
<br /> Power to all EMS equipment and devices must be OFF while terminations are made. PLENUM CITY
<br /> TRC HVAC UNIT CONTROLLER (TRC) 12 18/4 SHIELDED, WINDY # 002340-S
<br /> a. Provide labor and installation material, as required, for a complete and operational EMS for this DT store location. PLENUM CITY
<br /> b. Verify number and type of HVAC units and unit heaters against the design, report discrepancies, which cannot be resolved in the field, to the TSI National Account Support Team at (615) 495- 14 18/8 NON SHIELDED, WINDY # 002392-S
<br /> 1963 and wait for resolution instructions. DTS DUCT TEMPERATURE SENSOR 0
<br /> c. Perform all work in accordance with all National, State and Local Codes for this project. PLENUM CITY %%N000
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<br /> d. Mount and terminate the SimpleSTAT module(s) as per the location(s) specified by the DT drawings and this documentation package. STS SPACE TEMPERATURE SENSOR 16 18/10 NON SHIELDED, WINDY # 002393-S
<br /> e. Utilizing 18/8 cable between the SimpleSTAT module and HVAC unit. PLENUM CITY
<br /> i. Terminate C, R, G, Y1 , Y2, W1 and W2 on the HVAC unit for control of fan, cooling and heating. 18 24/8 CAT5 E, WINDY # 5556140-S
<br /> OLS OUTDOOR LIGHT SENSOR REVISION: (PART NUMBER 94-327) DATE:
<br /> iii. Terminate the communications cables to the SimpleSTAT(s) as shown in this documentation package. PLENUM CITY ADD NEW CONTROLLER TO DESIGN
<br /> f. Set address on the SimpleSTAT module, as shown in the SimpleSTAT installation instructions. When communications to the EMS is in a failed state, the SimpleSTAT will operate 24/7 as a ECN 2167 4/11/14
<br /> Add interconnection information for
<br /> stand-alone STAT using the following temperature setpoints: OHS OTS OUTDOOR TEMPERATURE & RELATIVE HUMIDITY SENSORS Auxiliary 1/0 panel, 01-451.(ECN 2234) 7/16/14
<br /> ii. Default Cooling Setpoint = 72.0 OF ADD ANTUMBRA OPTION. $/14/14
<br /> ii. Default Heating Setpoint = 68.0 OF (ECN 2239)
<br /> g. Mount and terminate the Remote Space Temperature Sensor(s) as per the location(s) specified by the DT drawings and the Special Instructions in this documentation package. RTP REMOTE TEMPERATURE PROBE
<br /> i. In close proximity to the zone return air grille and away from supply air drafts.
<br /> iii. Install and secure the Remote Temperature Sensor wire to the Thermostat Controller.
<br /> h. Mount the remote Supply Duct Temperature sensor of each HVAC unit. COzs INDOOR CO2 SENSOR
<br /> i. The remote Supply Duct Temperature Sensor should be mounted in the main Supply Air Duct on the interior side of the HVAC unit's building penetration.
<br /> iii. Utilizing 18/2 wire, terminate the supply duct temperature sensor wire to the Thermostat module as shown in this documentation package. IHS INDOOR RELATIVE HUMIDITY SENSOR
<br /> i. Provide Electrical Contractor with roof plan layout, showing location of HVAC Units on the roof.
<br /> j. Provide a technician, on site, for an approximate 2-hour remote telephone checkout with TSI.
<br /> k. Coordinate with the Electrical Contractor to verify proper HVAC control during the TSI Remote Commissioning Checkout. DOOR SENSOR O/H DOOR SENSOR
<br /> IV. PHILIPS TELETROL RESPONSIBILITIES:
<br /> a. The following services will be supplied by TSI: DOOR SENSOR MAN DOOR SENSOR
<br /> i. Shipping of all contracted EMS components for the job.
<br /> iii. Programming and downloading of TSI equipment and software. SECURITY
<br /> iii. Provide telephone technical support at (615) 495-1963. INTERFACE DEVICE SECURITY INTERFACE DEVICE
<br /> iv. Remote system checkout with installing contractor
<br /> DRAWN: CHECKED:
<br /> b. Verification of proper operation of the following items by exercising the controlled load:
<br /> i. Timed operation of all applicable EMS lighting loads – Interior and Exterior. WIRING LEGEND W.P.C. R.S.R.
<br /> eSC eBUILDING SYSTEM CONTROLLER
<br /> iii. Outside light Ieve1 control of all applicable EMS lighting Ioads – Interior and Exterior. — — FIELD WIRING
<br /> iii. Operation of HVAC heating stages, as indoor environment allows.
<br /> iv. Operation of HVAC cooling stages, as indoor and outdoor environments allow. POSITIVE ENERGY
<br /> V. Verification of HVAC unit sensor readings – space and supply temperatures. NEGATIVE
<br /> c. If any end unit (e.g. lighting, HVAC unit, supply air fan, unit heater, etc.) cannot be operated for mechanical or electrical reasons, TSI will verify the proper operation of the control devices (e.g. ROS REMOTE OVERRIDE SWITCH — — — — — — — — — — — OPTIONAL MANAGEMENT
<br /> contactors, discrete 1/0) leading up to the unit. COMPONENT
<br /> PLAN
<br /> 1EM = 1 of
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