Desa CDCFTNA, CDCFPR For Built-In Installation, Test to make sure blower is working properly

Page 15

INSTALLATION

Continued

For Built-In Installation

WARNING: A licensed elec- trician must connect the wiring harness to electrical supply following all local codes. Electri- cian must provide a clamp on the box cover to secure the wiring. Wiring should be routed through the bushing in the hole on the outer casing of fireplace.

1.Install snap bushing from blower kit into one hole on rear of remote/blower bracket (see Figure 20). The other hole is for a strain relief clamp (not supplied) to secure incoming electrical supply.

2.Follow steps 2 through 6 in Installing Blower Accessory, page 14.

3.A licensed electrician must follow the wiring diagram to connect incoming electrical supply to fan kit wiring harness (see Figure 21).

4.Plug power cord to outlet receptacle (not provided) as shown in Figure 20. Wind extra cable of power cord and tie up with plastic wire strap (see Figure 20). Set cable bundle between the remote/blower bracket and outer casing, away from the burner.

5.Test to make sure blower is working properly.

6.Reinstall upper louver beginning with bottom screws (see Figure 16, page 13) and close

lower louver.

Fan Switch

 

 

(Auto/Off/On)

 

 

 

1

Auto

 

 

Off

2

 

 

 

 

3

Blue

Thermostat

 

 

 

 

 

On

 

Switch

 

 

 

(N.O.)

110/115

 

 

 

Blue

V.A.C.

 

Red

 

Blower

Black

 

 

 

Motor

 

 

 

Red

 

 

 

 

White

 

 

 

White

Green

 

 

 

Green

Figure 21 - Wiring Diagram For Blower Accessory Built-In Installation

Extension Cord Use extension cord if needed. The cord must have

athree-prong, grounding plug and a three-hole receptacle. Make sure cord is in good shape. It must be heavy enough to carry the current needed. An un- dersized cord will cause a drop in line voltage. This will result in loss of power and overheating. Use a No. 16 AWG cord for lengths less than 50 feet.

Blower Bracket Wire Harness

Assembly

Screw

Power Cord

Switch

Outlet Receptacle (not included)

3 2 1

Switch

Plate

Plastic Wire Strap

Wire Harness

 

Clamp Connector (not included)

Remote/ Blower Bracket

Lower Louver Door

Figure 20 - Installing Blower Bracket Assembly

111244-01F

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Contents What to do if YOU Smell GAS Shown with Optional Cabinet Mantel/Hearth Base AccessoryTable of Contents Safety Information Product Identification Unpacking Optional Remote Control AccessoriesProduct Features Local CodesHex wrench Scissors Hood AssemblySheet Metal Screws Hood Louver Firebox Top Tools Required Phillips screwdriverAIR for Combustion Ventilation Providing Adequate VentilationDetermining FRESH-AIR Flow for Fireplace Location Ventilation AIR Ventilation Air From Inside BuildingVentilation Air From Outdoors Check GAS Type InstallationMinimum Clearance to Combustible Materials Installation ItemsBUILT-IN Fireplace Installation Fireplace ClearancesDepth If you have not installed hood, follow instruc- tions onActual Framing Height Front WidthOptional Mantel Installation Mantel Clearances for Built-In InstallationMantel Shelf Installing Optional Blower Accessory GA3450TA Cord Installing Blower AccessorySwitch Plate Wire Remote Blower Harness Bracket Switch PlateFor Built-In Installation Test to make sure blower is working properlyLower louver Connecting to GAS Supply Connecting Equipment Shutoff Valve to Heater Control Installation Items NeededChecking GAS Connections Gas Meter Correct all leaks at onceEquipment Open Shutoff Valve Closed Gas Regulator or Equipment Gas Control ValveOptional Wall Mounted Optional Wireless HAND-HELD Remote Control AccessoriesInstalling Receiver Installing 9-Volt Battery in Hand-Held Remote Control UnitFeed wires through rectangular slots Remove jumper wire from control valve see ,Terminal W Terminal R R Log Set Log Shoulder Screw Brick Liner Bracket ScreenRear Brick Liner Left Brick LinerIgnitor Button Control Knob For Your Safety Read Before LightingOperating Fireplace Lighting InstructionsOperating Blower Manual Lighting ProcedureTo Turn OFF GAS To Appliance Thermostat Control OperationREMOTE-READY Models For Your Safety Read Before Lighting AUTO/OFF/ON SwitchPiezo Flame Control Ignitor Adjustment Knob Button Pilot Burner Ignitor Electrode If Using Optional Hand-Held RemoteOptional HAND-HELD Remote Operation Pilot Ignitor Burner ElectrodeThermostat Series Model HRC200 Series Manual ModeAuto Thermostatic Mode ON/OFF Series Model HRC100Pilot Flame Pattern Optional GWMS2 Wall Mounted SwitchInspecting Burners Optional GWMT1 Wall Mounted ThermostatIf pilot flame pattern is incorrect, as shown in , Cleaning MaintenanceBurner Flame Pattern Burner Injector Holder and Pilot AIR Inlet HoleRemote-Ready Models Only Wiring DiagramLOG SET CabinetIgnitor cable dry TroubleshootingObserved Problem Possible Cause Remedy Ignitor cable pinched or wetOr replace burner orifice Burner orifice is cloggedMote-Ready Models Only Models OnlySlight smoke or odor during When heated, vapors fromWalls or furniture Cleaners, etc. may turn into Mote-Ready Models Only Power is lowMent above Gas odor even when controlFireplace produces unwanted Ers, chemicals, new carpetSpecifications Dimensions H x W x D including hoodThermostat Models Parts Under Warranty Replacement PartsService Hints Technical ServiceIllustrated Parts Breakdown Parts List Cdcfpr Firebox Models Cdcfnr and Cdcfpr Outer Casing104281-02BR Firebox Hood Firebox Top Illustrated Parts Breakdown Brass Flare Adapter Fitting Hardware PackLighting Instruction Plate Not a field replaceable part FDCFTN/TP VDCFRN/RP CDCFNR/PR Lighting Instruction Plate Brass Trim KIT GA6095 AccessoriesTHERMOSTAT-CONTROLLED Blower KIT GA3450TA Equipment Shutoff Valve GA5010Information Video WALL-MOUNT Thermostat Switch GWMT1WALL-MOUNT ON/OFF Switch GWMS2 Receiver and HAND-HELD Remote Control KIT HRC100 Series111244-01F 111244-01F 111244-01

CDCFTNA, CDCFPR, CDCFTPA specifications

Desa CDCFTPA, CDCFPR, and CDCFTNA represent a suite of advanced technologies and methodologies employed in the development and management of efficient distribution networks within the field of telecommunications and data services. These frameworks are designed to enhance connectivity, streamline processes, and ensure optimal performance in various environments.

One main feature of Desa CDCFTPA (Coaxial Digital Channel Fiber Transmission Protocol Architecture) is its ability to integrate coaxial cables with fiber optic technology, enabling high-speed data transmission over existing infrastructures. This hybrid approach not only reduces the need for extensive renovations but also capitalizes on the advantages of both technologies, offering broadband accessibility and improved bandwidth capabilities. By leveraging both mediums, operators can deliver enhanced services while maintaining cost-efficiency.

CDCFPR (Centralized Data Control Fiber Processing Resource) represents a centralized approach to managing data flow within telecommunications networks. Its core characteristic lies in its architecture, which supports dynamic allocation of resources in real-time. This enables network operators to efficiently allocate bandwidth based on demand, optimize routing paths, and reduce latency. Additionally, CDCFPR employs advanced algorithms for data compression and encryption, ensuring that users experience a seamless and secure connection.

CDCFTNA (Carrier Digital Channel Fiber Transmission Network Architecture) is focused on creating robust networks that can support a variety of distribution channels, including 5G and IoT devices. Its design emphasizes scalability and adaptability, allowing network providers to easily expand or modify their infrastructure to meet evolving market needs. Key technologies incorporated in CDCFTNA include Software-Defined Networking (SDN) and Network Function Virtualization (NFV), which enable operators to manage their resources more flexibly and efficiently.

Each of these frameworks boasts unique characteristics that contribute to the overall enhancement of telecommunications systems. They embody a commitment to innovation, sustainability, and user-centric design, aligning with current trends in digital services and communication technologies. By deploying such advanced systems, service providers can ensure they remain competitive in a fast-paced and continuously evolving market. In summary, Desa CDCFTPA, CDCFPR, and CDCFTNA collectively represent the future of telecommunications infrastructure, promising improved connectivity, efficiency, and adaptability for a diverse range of applications.
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