Desa A, B, C, A, C, B installation manual Troubleshooting, Observed Problem Possible Cause Remedy

Page 24

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TROUBLESHOOTING

TROUBLESHOOTING

Note: For additional help, visit DESA International’s technical service web site at www.desatech.com.

Note: All troubleshooting items are listed in order of operation.

WARNING: Turn off and un- plug heater and let cool before servicing. Only a qualified ser- vice person should service and repair heater.

CAUTION: Never use a wire, needle, or similar object to clean ODS/pilot. This can damage ODS/ pilot unit.

 

OBSERVED PROBLEM

POSSIBLE CAUSE

REMEDY

 

When ignitor button is pressed, there is no

1.

Ignitor electrode not connected to igni-

1.

Reconnect ignitor cable

 

spark at ODS/pilot

 

tor cable

 

 

 

 

2.

Ignitor cable pinched or wet

2.

Free ignitor cable if pinched by any

 

 

 

 

 

metal or tubing. Keep ignitor cable dry

 

 

3.

Piezo ignitor nut is loose

3.

Tighten nut holding piezo ignitor to base

 

 

 

 

 

panel of log set. Nut is located behind

 

 

 

 

 

base panel.

 

 

4.

Broken ignitor cable

4.

Replace ignitor cable

 

 

5.

Bad piezo ignitor

5.

Replace piezo ignitor

 

 

6.

Ignitor electrode positioned wrong

6.

Replace piezo ignitor

 

 

7.

Ignitor electrode broken

7.

Replace piezo ignitor

 

 

 

 

 

 

 

When ignitor button is pressed, there is

1.

Gas supply turned off or equipment

1.

Turn on gas supply or open equipment

 

spark at ODS/pilot but no ignition

 

shutoff valve closed

 

shutoff valve

 

 

2.

Control knob not in PILOT position

2.

Turn control knob to PILOT position

 

 

3.

Control knob not pressed in while in

3.

Press in control knob while in PILOT

 

 

 

PILOT position

 

position

 

 

4.

Air in gas lines when installed

4.

Continue holding down control knob.

 

 

 

 

 

Repeat igniting operation until air is

 

 

 

 

 

removed

 

 

5.

Depleted gas supply (propane/LP only)

5.

Contact local propane/LP gas company

 

 

6.

ODS/pilot is clogged

6.

Clean ODS/pilot (see Cleaning and

 

 

 

 

 

Maintenance, page 23) or replace ODS/

 

 

 

 

 

pilot assembly

 

 

7.

Gas regulator setting is not correct

7.

Replace gas regulator

 

 

 

 

 

 

 

ODS/pilot lights but flame goes out when

1.

Control knob not fully pressed in

1.

Press in control knob fully

 

control knob is released

2.

Control knob not pressed in long enough

2.

After ODS/pilot lights, keep control

 

 

 

 

 

knob pressed in 30 seconds

 

 

3.

Safety interlock system has been

3.

Wait one minute for safety interlock sys-

 

 

 

triggered

 

tem to reset. Repeat ignition operation

 

 

4.

Equipment shutoff valve not fully open

4.

Fully open equipment shutoff valve

 

 

5.

Pilot flame not touching thermocouple,

5.

A) Contact local natural or propane/LP

 

 

 

which allows thermocouple to cool,

 

gas company

 

 

 

causing pilot flame to go out. This prob-

 

 

 

 

 

lem could be caused by one or both of

 

B) Clean ODS/pilot (see Cleaning and

 

 

 

the following:

 

Maintenance, page 23) or replace ODS/

 

 

 

A) Low gas pressure

 

pilot assembly

 

 

 

B) Dirty or partially clogged ODS/pilot

 

 

 

 

6.

Thermocouple connection loose at con-

6.

Hand tighten until snug, then tighten

 

 

 

trol valve

 

1/4 turn more

 

 

7.

Thermocouple damaged

7.

Replace thermocouple

 

 

8.

Control valve damaged

8.

Replace control valve

For

.

.com

104415

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Contents OWNER’S Operation and Installation Manual What to do if YOU Smell GASTable of Contents Safety InformationProduct Identification Other gasesOptional Remote Control Accessories Product FeaturesLocal Codes UnpackingDetermining FRESH-AIR Flow for Heater Location Confined and Unconfined SpaceDetermining if You Have a Confined or Unconfined Space Ventilation AIR Ventilation Air From Inside BuildingVentilation Air From Outdoors Installation Installation and Clearances for VENT-FREE OperationCheck GAS Type If Not Using Mantel Minimum Noncombustible Material ClearancesDetermining Minimum Mantel Clearance When Using a Hood Mantel ClearancesFloor Clearances Determining Minimum Mantel ClearanceInstalling Damper Clamp Accessory for Vented Operation Installing Heater Base AssemblyInstallation Items Needed Area of Various Standard Round FluesAttaching Base to Fireplace Floor Remote-Ready Models Only Connecting to GAS Supply External Regulator With Vent Pointing DownPressure Testing gas Supply Piping system Checking GAS ConnectionsInstalling Logs Pressure Testing Heater Gas ConnectionsProng Log Rear Burner Grate Operating Heater Lighting InstructionsManual Lighting Procedure To Turn OFF GAS to ApplianceThermostat Control Operation Shutting Off HeaterREMOTE-READY Models For Your Safety Read Before Lighting Variable Control OperationControl Knob and Ignitor Button Location Optional Remote Operation Thermostat Control OperationGhrc Series Operation Ghrcta Series OperationInspecting Burners Pilot Flame PatternFront Burner Flame Pattern Cleaning Maintenance Cleaning Burner Injector Holder and Pilot AIR Inlet HoleLogs Troubleshooting Observed Problem Possible Cause RemedyRefer to Air for Combustion and Venti Gas leak. See Warning statement Optional Positioning of Thermostat Sensing Bulb For Masonry and FACTORY-BUILT Metal FireplaceThermostat-Controlled Models Only Specifications Remote-ReadyWiring Diagram Replacement Parts Service HintsTechnical Service Parts Under WarrantyIllustrated Parts Breakdown Variable Manually Controlled Split OAK ModelsParts List Variable MANUALLY-CONTROLLED Split OAK ModelsVS30NTB and VS30PTB THERMOSTAT-CONTROLLED Models REMOTE-READY Variable Control Parts List Accessories Owners Registration Form Postage Required 104415 Warranty Information

A, C, B, A, B, C specifications

Desa A, B, C, A, C, B represent a compelling exploration of village characteristics and technologies that contribute to their unique identities and functionalities. Each desa, or village, embodies distinct features that reflect their cultural heritage, technological advancements, and socio-economic activities.

Desa A is characterized by its commitment to sustainable agriculture. The villagers employ traditional farming techniques enhanced by modern technologies, such as precision farming tools and moisture sensors. This approach not only maximizes yield but also ensures environmental protection. The village integrates permaculture principles, harmonizing crops and livestock systems. Additionally, digital platforms are utilized for market access, allowing farmers to sell their produce directly to consumers, thereby enhancing their income and reducing intermediaries.

Desa B showcases a vibrant artisanal economy. With a rich tradition of crafts, this village is known for its handmade textiles and pottery. The artisans use both age-old techniques and contemporary designs, merging tradition with innovation. Technologies like 3D printing are being introduced to create unique molds for pottery, offering greater precision and creativity. Furthermore, Desa B has developed an online marketplace, enabling local artisans to reach global customers and ensure fair trade practices.

Desa C reflects a community-centric approach, emphasizing social cooperation and mutual support. The villagers employ technologies such as community screens for sharing information and organizing events. Solar energy becomes a centerpiece, providing electricity for communal activities and enhancing the village infrastructure. Additionally, Desa C has initiated a digital literacy program, empowering villagers, especially women, with essential tech skills to participate in the digital economy.

The relationship among these desas enhances cultural exchange and resource sharing. For example, Desa A's farmers can supply organic produce to the artisans of Desa B, enriching their craft with natural dyes. Meanwhile, Desa C's commitment to community collaboration creates a supportive environment for innovation and technology adoption.

In summary, Desa A, B, C, A, C, B illustrate the profound impact of integrating traditional practices with modern technologies. Their unique main features not only promote sustainable development but also foster a sense of community and collaborative growth, demonstrating that innovation can harmoniously coexist with cultural heritage. Such a dynamic ensures resilience and adaptability in an ever-evolving world.