Crown Boiler AWI195, TWI095, TWI128, TWI061, TWI162, AWI061, AWI162, AWI229, AWI262 XII Troubleshooting

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XII Troubleshooting

The following four pages contain troubleshooting charts for use in diagnosing control problems. To use these charts, go to the box marked “Start” at the top of the chart on page 30 and follow the appropriate path though the chart until a box with a list of possible causes is reached. If the problem is known to be within the ignition system, go directly to the appropriate troubleshooting guide for the boiler (standing pilot on page 32 or intermittent ignition on page 33). In using these charts, the following should be kept in mind:

1)These charts are only meant to be used by a professional heating technician as an aid in diagnosing control problems.

2)Where applicable, follow all precautions outlined in the appropriate lighting instructions on page 24 or 25.

3)In general, these charts assume that there are no loose or miswired electrical connections. Before using these charts, inspect all electrical connections on the boiler to make sure that they are tight. Also, check the wiring on the boiler against the appropriate wiring diagram in Figure 16 or 17.

4)The possible causes at the end of each branch in these charts are not listed in order of likelihood. All controls on the AWI and TWI are tested at least once in the manufacturing process and a defective control or component is generally the least likely cause. Before replacing a component, try to rule out all other possible causes.

5)These troubleshooting charts assume that the vent damper is closed at the beginning of the troubleshooting process. With the 120 volts applied to the boiler and no call for heat, the damper should go to the closed position. If it does not, do the following:

Confirm that 120 volts is applied to the boiler and that there is no call for heat.

Make sure that the switch on the damper is in the “automatic” position.

Unplug the harness from the damper and check for 24 volts across pin #1 (blue) and pin #4 (yellow).

If voltage is present, the damper is defective or there is an obstruction in the path of the damper blade.

If no voltage is present, there is either a loose connection in the damper harness or the L8148E is defective

6)If the charts indicate that the L8148E is defective, do the following before replacing it:

Check for 24 volts across TV and Z. If no voltage is present, the transformer in the L8148E is defective. It is possible that this transformer has been destroyed by a short circuit in the boiler wiring. Before replacing the control, carefully inspect all low voltage wiring on the boiler for places where it is touching the frame of the boiler or wiring on the other side of the transformer.

If 24 volts is present across TV and Z, check for 24 volts between T and W. If no voltage is present, make sure that the brass jumper is present between W and Z and that the screws holding this jumper in place are both tight.

If not already done, temporarily replace the thermostat across TV and T with a jumper. If the boiler fires when this is done, there is a problem with the thermostat or zone wiring.

If 24 volts is present across T and W and the relay in the L8148E does not pull in, the relay in the L8148E is probably defective. Inspect the coil of this relay for visible heat damage. If such damage is found, there is a good chance that a second transformer is present in the thermostat or zone valve circuit, resulting in the application of 48 volts across the relay coil. In older buildings, this transformer may be hidden in a location far from the boiler. If this second transformer exists, it must be found and removed before the L8148E is replaced.

7)When checking voltage across damper harness pins, be careful not to insert the meter probes into the pins. Doing so may damage the pin, resulting in a loose connection when the harness is reconnected.

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Contents Crown Inside Front Cover Leave Blank II Specifications Table of ContentsProduct Description Bleftpipedconfiguration Specifications IV Locating the Boiler III Before InstallingFor Buildings of Other than Unusually Tight Construction Air for Combustion and VentilationExample ALL AIR from Outdoors Ventilated Crawl Space and Attic For Buildings of Unusually Tight ConstructionVI Venting ALL AIR from OUTDOORS, Using Openings Into Boiler RoomTypicalventsystem Installation and Components 1210 Removing an Existing Boiler from a Common ChimneyGAS Connection to Boiler VII Gas PipingStandardPiping Viii System PipingStandard Boiler Piping Piping for Special SituationsIndirect Water Heater Boiler Bypass Piping Single Zone Wiring IX WiringWiring DIAGRAM, Continuous Ignition Circulator Zonewiring Using HONEYWELLR845As Wiring VariationsSequence of Operation, Standing Pilot AWI/TWI Control System Sequence of OperationSequence of Operation, Intermittent Ignition Start-up and Checkout Page Standing Pilot Burner Flame For Your Safety Read Before Operating For Your Safety Read Before Lighting GAS Valve Detail Standing Pilot XI Service and Maintenance Heat Exchanger Cleaning Procedure XII Troubleshooting AWI/TWI Troubleshooting Chart END Standing Pilot Ignition System Troubleshooting Chart Intermittent Ignition System Troubleshooting Chart Xiii Parts Base-Block-Hood Below 2000 ft Burner Components KEY # Description QTY. or Quantity PER Boiler or Crown P.N Jacket/Components Crown

AWI262, AWI095, TWI095, AWI195, AWI037 specifications

Crown Boiler is a renowned name in the heating industry, providing high-quality, efficient heating solutions that cater to various residential and commercial needs. Among its impressive lineup, the AWI and TWI series stand out for their design, technology, and performance.

The Crown Boiler AWI061 and TWI061 are part of the Hydronic Boiler range, designed to deliver efficient hot water heating. The AWI series features an advanced pressure-jet design that allows it to operate with exceptional fuel efficiency, reducing operating costs for homeowners and businesses alike. Additionally, these models come equipped with an integrated pump system that ensures a consistent supply of hot water, making them ideal for both space heating and domestic hot water applications.

Meanwhile, the AWI162 and AWI128 models are engineered for higher output, addressing larger heating needs without compromising efficiency. These models showcase a robust heat exchanger made of durable cast iron, promoting longevity and effective heat transfer. The AWI series boilers feature a modern control system that allows for precise temperature management, enhancing comfort while minimizing energy consumption.

The Crown Boiler AWI295, on the other hand, steps up with a significant heating capacity suited for commercial applications. This model is designed with advanced safety and efficiency technologies, including an intelligent control module that monitors temperature and pressure, ensuring optimal performance while preventing malfunctions. The large water volume design allows for enhanced thermal stability and consistent heating output.

A notable characteristic across these models is their ease of installation and maintenance. Crown Boiler has engineered the units with user-friendly features, including accessible components and simplified diagnostics that help technicians service the boilers swiftly. Moreover, the durability of cast iron construction ensures that these units can withstand high thermal stress while delivering reliable performance over the years.

In summary, Crown Boiler’s AWI061, TWI061, AWI162, AWI128, and AWI295 models offer a range of solutions equipped with advanced technologies and features designed for efficiency and reliability. These boilers are suitable for diverse heating needs, promising optimal comfort and convenience in both residential and commercial settings. With Crown Boiler's longstanding commitment to quality, customers can be assured of a robust heating solution backed by exceptional service.